flame, riot control agent, and herbicide operations (excerpt)

FM 3-11.11MCRP 3-3.7.2

FLAME,RIOT CONTROL

AGENT,AND

HERBICIDEOPERATIONS

HEADQUARTERS, DEPARTMENT OF THE ARMYUNITED STATES MARINE CORPS

DISTRIBUTION RESTRICTION: Distribution authorized to US Government agencies only to protect technical or operational information from automatic dissemination under the International Exchange Program or by other means. This determination was made 10 November 1993. Other requests for this document will be referred to Commandant, US Army Chemical School, ATTN: ATSN-CM-DD, 401 MANSCEN Loop, Suite 1029, Fort Leonard Wood, MO 65473-8926.

DESTRUCTION NOTICE: Destroy by any method that will prevent disclosure of contents or reconstruction of the document.

This FM has been renumbered from FM 3-11 to FM 3-11.11

FM 3-11.11/MCRP 3-3.7.2 C1

Change 1 Field Manual Headquarters No. 3-11.11 Department of the Army Marine Corps Reference Publication United States Marine Corps No. 3-3.7.2 Washington, DC, 10 March 2003

FLAME, RIOT CONTROL AGENT, AND HERBICIDE OPERATIONS

1. Change FM 3-11, 19 August 1996, as follows. The number of this field manual (FM) is being changed to FM 3-11.11. The old number will be reused for the new manual FM 3-11, Multiservice Tactics, Techniques, and Procedures for Nuclear, Biological, and Chemical Defense Operations.

Remove Old Pages Insert New Pages Cover page Cover page Pages i and ii Page i

2. A bar ( ) marks new or changed material. 3. File this transmittal sheet in front of the publication. DISTRIBUTION RESTRICTION: Distribution authorized to US Government agencies only to protect technical or operational information from automatic dissemination under the International Exchange Program or by other means. This determination was made 10 November 1993. Other requests for this document will be referred to Commandant, US Army Chemical School, ATTN: ATSN-CM-DD, 401 MANSCEN Loop, Suite 1029, Fort Leonard Wood, MO 65473-8926. DESTRUCTION NOTICE: Destroy by any method that will prevent disclosure of contents or reconstruction of the document. By Order of the Secretary of the Army: ERIC K. SHINSEKI General, United States Army Chief of Staff Official:

DISTRIBUTION Active Army, Army National Guard, and US Army Reserve: To be distributed in accordance with the initial distribution number 110153, requirements for FM 3-11.11.

JOEL B. HUDSON Administrative Assistant to the

Secretary of the Army 0304501

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*C1, FM 3-11.11/MCRP 3-3.7.2

FIELD MANUAL HEADQUARTERSNO. 3-11.11 DEPARTMENT OF THE ARMYMARINE CORPS REFERENCE PUBLICATION UNITED STATES MARINE CORPSNO. 3-3.7.2 Washington, DC, 19 AUGUST 1996

FLAME, RIOT CONTROL AGENT,AND HERBICIDE OPERATIONS

ContentsPage

PREFACE .................................................................................................................................................... ii

Part One - Flame OperationsCHAPTER 1. US Policy for Flame, Riot Control Agents, and Herbicides..............................................1-1CHAPTER 2. Flame Operations ............................................................................................................2-1CHAPTER 3. Flame Fuels .....................................................................................................................3-0CHAPTER 4. Exploding Flame Devices ................................................................................................4-1CHAPTER 5. Flame Illuminators ...........................................................................................................5-0

Part Two - Riot Control Agent OperationsCHAPTER 6. Riot Control Agents .........................................................................................................6-1CHAPTER 7. RCA Employment ............................................................................................................7-1

Part Three - Herbicide OperationsCHAPTER 8. Herbicides for Contingency Use ......................................................................................8-1CHAPTER 9. Herbicide Delivery Systems.............................................................................................9-0CHAPTER 10. Tactical Employment of Herbicides ...............................................................................10-0APPENDIX A. Demolition Skills for Constructing Flame Field Expedients ............................................ A-0APPENDIX B. Riot Control Agent Munitions and Delivery Systems ...................................................... B-1APPENDIX C. Safety ............................................................................................................................. C-1APPENDIX D. Herbicide Spray Systems ............................................................................................... D-1GLOSSARY ................................................................................................................................. Glossary-0REFERENCES ......................................................................................................................... References-1INDEX................................................................................................................................................. Index-1

DISTRIBUTION RESTRICTION: Distribution authorized to US Government agencies only to protect tech-nical or operational information from automatic dissemination under the International Exchange Program orby other means. This determination was made 10 November 1993. Other requests for this document will bereferred to Commandant, US Army Chemical School, ATTN: ATSN-CM-DD, 401 MANSCEN Loop, Suite1029, Fort Leonard Wood, MO 65473-8926.

DESTRUCTION NOTICE: Destroy by any method that will prevent disclosure of contents or reconstructionof the document

*This publication supersedes FM 3-11, 19 September 1990.

MARINE CORPS PCN: 14400001200

NOTE: This FM has been renumbered from FM 3-11 to FM 3-11.11.

pittengk

DISTRIBUTION RESTRICTION: Approved for public release; distribution is unlimited.

FM 3-11/MCRP 3-3.7.2

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FM 3-11/MCRP 3-3.7.2

P r e f a c e

This publication describes the doctrine, tactics, and techniques for employing flame weapons, riot control agents(RCA), and herbicides during peacetime and combat. It is intended primarily for use by chemical personnel at allechelons in planning the employment of flame and non-lethal materials (RCAs and herbicides). Training withRCAs is discussed in detail in TC 3-8, Chemical Training.This manual does not implement any international standardization agreements; however, the material within themanual is in accordance with related international agreements.Unless this publication states otherwise, masculine nouns and pronouns do not refer exclusively to men.Extracts from FM 5-250, Explosives and Demolitions, are used extensively throughout this field manual fortechnical and operational clarity. For further information concerning the use of military explosives and theircomponents, see FM 5-250.The proponent of this publication is the US Army Chemical School. Send comments and recommendations on DAForm 2028 (Recommended Changes to Publications and Blank Forms) directly to:

CommandantUS Army Chemical SchoolATTN: ATZN-CMR-AFort McClellan, AL 36205-5020

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FM 3-11/MCRP 3-3.7.2

CHAPTER 1

U.S. Policy forFlame,

Riot Control Agents

a n d

Herbicides

PEACETIME USEPolicy govering US policy for RCA and herbicides isfound in Executive Order 11850 dated 8 Apr 75,Renunciation of Certain Uses in War of Chemicals, The Secretary of the Army, as Executive Agent forHerbicides, and Riot Control Agents. the Department of Defense for civil disturbance

operations, has issued instructions governing the use

WARTIME USEThe US has renounced first use of herbicides in warexcept under regulations applicable to domestic use orfor control of vegetation within US bases andinstallations and around their immediate perimeters.The US has renounced the first use of RCAs in war.US forces will only use RCAs in war in defensivemodes to save lives as approved by the President.In wartime, use of RCAs outside the war zone isauthorized as prescribed for peacetime.For RCA and herbicide use, war is any period ofarmed conflict no matter how it may becharacterized, including declared and undeclared war,counterinsurgency, and any other uses of armedforces in engagements between US military forcesand foreign military or paramilitary forces. Armedconflict is conflict between states in which at leastone party has resorted to the use of armed force toachieve its aims. It also may involve conflict betweena state and uniformed or non-uniformed groupswithin that state, such as organized resistance groups.Commanders must recognize that, while the US doesnot consider herbicides and riot control agents to bechemical weapons, some other countries do not drawa distinction. Commanders must considerinternational ramifications and Rules of Engagementbefore recommending the use of herbicides or RCAs.

of RCAs in civil disturbances in the US, theCommonwealth of Puerto Rico, and US possessionsand territories.RCAs may be used on US bases, posts, embassygrounds, and installations for protection and securitypurposes, riot control, installation security, andevacuation of US noncombatants and foreignnationals. The US-controlled portions of foreigninstallations are considered US installations.Chemical aerosol-irritant projectors may be used bymilitary law enforcement personnel for theperformance of law enforcement activities. They maybe used—

On-base and off-base in the United States and itsterritories and possessions.

On-base overseas and off-base overseas in thosecountries where such use is specifically authorized bythe host-country government.RCAs may be used off-base (worldwide) for theprotection or recovery of nuclear weapons under the

CONTENTSWartime Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1Peacetime Use . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1Authority . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2Weapons Employing Fire . . . . . . . . . . . . . . . . . . . . . . 1-2

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FM 3-11/MCRP 3-3.7.2

same conditions as those authorized for the use oflethal force. (See DOD Directive 5210.56.)RCAs may be used in training. A review of currenttreaties and/or Status-of-Forces Agreements betweenthe host country and US forces may be required indetermining whether or not training with RCAs isauthorized overseas.Herbicides may be used within US bases, posts, andinstallations for control of vegetation. Use ofherbicides off-base overseas must be in accordancewith host country laws and agreements, USEnvironmental Protection Agency (EPA)requirements, or Service regulations, whichever arethe most stringent.

AUTHORITYOnly the President may authorize the following:

Use of RCAs in war, including defensive militarymodes. However, advance authority to use RCAs forprotection or recovery of nuclear weapons has beendelegated to the Secretary of the Defense.

Wartime use of herbicides, including installationvegetation control.The Secretary of Defense may authorize the following:

Use of RCAs or herbicides in peacetime.Use of RCAs in wartime for the protection or

recovery of nuclear weapons.CINCs and the Chiefs of Services may authorize:

The use of RCAs in peacetime on US installationsfor riot control, installation security, civil disturbanceoperations, and non-combatant emergency evacuationoperations. The US-controlled portions of foreign

installations are considered US installations.The movement and storage of RCAs and

herbicides, as necessary, to support requirements,provided US control is maintained.

The off-base use of RCAs in peacetime for theprotection or recovery of nuclear weapons under thesame situations as authorized for the use of lethalforce.

The use of herbicides in peacetime within and,when authorized by the host country government,around US bases for control of vegetation.

The use of chemical aerosol-irritant projectors bymilitary law enforcement personnel during peacetimefor the performance of law enforcement activities inthe following areas:

On-base and off-base in the US and itsterritories and possessions.

On-base and off-base overseas in thosecountries where such use is specifically authorized bythe host country government.

Authority for use of RCAs in peacetime situationsnot covered by the above (for example, to save livesin counterterrorist operations) will be addressed inplans and requested by the combatant commandersfor Secretary of Defense approval.

WEAPONS EMPLOYING FIREThe use of weapons that employ fire, such as tracerammunition, flamethrowers, napalm, and otherincendiary agents, against targets requiring their useis not a violation of international law. They shouldnot, however, be employed to cause unnecessarysuffering to individuals.

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FM 3-11/MCRP 3-3.7.2

CHAPTER 2

Flame Operations

FLAME EFFECTSFlame is a valuable close combat weapon that burns,depletes oxygen, and impacts psychologically. Sinceman fears flame, it is used to demoralize troops andreduce positions that have resisted other forms ofattack. Flame produces the following effects:Casualties. Casualties result from—

Burns. Thickened fuel sticks to clothing and skin,burns with intense heat, and is extremely difficult toextinguish.

Inhalation of flame, hot gases, and carbonmonoxide.

Suffocation.Shock.

Psychological. The psychological impact is probablyone of the greatest effects of flame. In many cases,defending personnel will leave well-preparedpositions and risk exposure to other weapons orcapture. In other cases, the enemy is forced towithdraw from firing positions during the effectiveperiod of the flame attack. This permits friendlyforces to close in before the enemy reoccupies hisfiring positions.Splatter. Flame reaches around corners through thesplattering and ricochet action of the thickened fuelon adjacent surfaces. The splattering action of thethickened fuel spreads the flame over an area—incontrast to the point effects of nonfragmenting smallarms ammunition.Incendiary. Flame ignites combustible materials tocause additional problems for personnel. Flameweapons ignite clothing, tentage, wires, petroleumproducts, buildings of light construction, lightvegetation, munitions, and other combustible material.Battlefield Illumination and Signaling. Controlled,slower burning flame field expedients (FFEs) can beused for close-in battlefield illumination andsignaling. These devices can be made to vary inillumination time from a few minutes to hours.

Smoke. The burning fuel from flame weapons andFFEs produces a dense black smoke that can reducebattlefield visibility appreciably. Smoke from ignitedmaterials can prolong this condition. This blacksmoke may attract the enemy’s attention to the flameattack and invite counterfire. To minimize anyhindrance to friendly operations, the presence of thissmoke must be anticipated when planning operationsin which flame weapons or FFEs will be used.

FLAME WEAPONSThe flame weapons available are the M202A1 rocketlauncher, incendiary grenades, and FFEs.

M202A1Rocket LauncherThe M202A1 Rocket Launcher (Figure 2-1) is alightweight, individual rocket launcher aimed andfired on the right shoulder from the standing,kneeling, or prone position. The launcher is loadedwith a clip (M74) which contains four rockets. It canfire one to four rockets semiautomatically at a rate ofone rocket per second and can be reloaded with a newclip.

CONTENTSFlame Effects . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1Flame Weapons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1Flame Attack Targets . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2Weather Effects on Flame Fuels andWeapons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3Destruction to Prevent Enemy Use............2-3Flame Employment Principles . . . . . . . . . . . . . . . 2-4Offensive Flame Use . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4Defensive Flame Use . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5

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FM 3-11/MCRP 3-3.7.2

The M74 rocket (Figure 2-2) is filled with thickenedpyrophoric agent (TPA). This TPA is triethylalum-inum (TEA), a substance similar to whitephosphorus, which bums spontaneously whenexposed to air (exposure occurs on impact, therefore,no fuel is wasted by burning en route to target). Itburns at temperatures between 1400-2200 degreesFahrenheit. The M74 is used to engage area-typetargets out to a range of 750 meters and point-typetargets out to a range of 200 meters. The minimumsafe firing distance to a target is 20 meters (M74 hasa bursting radius of 20 meters; therefore, engagingtargets closer than 20 meters may result in injury tofriendly troops).

Incendiary GrenadesThe AN-M14 TH3 incendiary hand grenade is filledwith thermite, which bums at 4,000 degreesFahrenheit. The grenade bums for 40 seconds andcan bum through a 1/2-inch homogeneous steel plate.It can damage, immobilize, or destroy vehicles,weapon systems, shelters, or munitions. The grenademay also be used to start fires in areas containingcombustible materials.

Flame Field ExpedientsFFEs can generate violent, effective combat power atdecisive times and places on the battlefield. Thesesystems—fougasses, flame mines and flame

trenches—can be used by tactical commanders to aidin—

Repelling enemy penetrations.Destroying enemy forces.Gaining time.Providing obstacles.Isolating or canalizing an enemy.Slowing enemy movement.Surprising enemy forces.Degrading enemy morale.Deceiving enemy forces.

FFEs are formidable, uncomplicated weapons thatlend themselves to support of both light and heavyforces at all levels of the spectrum of conflict. Whenapplied at decisive times and places on the battlefield,flame weapons reinforce fighting positions, achievesurprise, and produce casualties and psychologicalshock. They may also provide battlefield illuminationduring limited visibility to help see enemy forcestrying to assault friendly forces. Exploding FFEdevices produce casualties from the immediatedevelopment of extremely high levels of heat at themoment of detonation. Additionally, exploding FFEsproduce hundreds of white-hot shards of metal as thecontainer breaks apart. However, the most dangerouspart of an FFE is the burning thickened fuel thateither is spread in all directions or projected over alarge area. Thickened fuel is a syrupy liquid thatsticks to a target and continues to burn. Once ignited,flame fuel is extremely difficult to extinguish.Selected FFE devices are constructed to simply burnin place and provide light during limited visibility.Illuminating devices burn for an unspecified time.Generally, these flare-like systems will burn fromfour to eight hours depending upon the quantity offuel contained. They are designed to providebattlefield illumination for the destruction of enemyforces trying to assault friendly fighting positions.

FLAME ATTACKTARGETS

In selecting flame attack targets, consider the type offlame weapon available.

FortificationsFlame is particularly effective in the attack ofpersonnel in shelters such as fortifications. Itseffectiveness depends on as the size, number, andtype of apertures and construction of the fortification.A small fortification may be entirely reduced, but afortification with more than one internal compartment

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FM 3-11/MCRP 3-3.7.2

fortification with more than one internal compartmentusually affords comparative safety to its occupants.The flame fuel must actually penetrate a fortificationfor maximum results. More fuel is required to causecasualties among personnel in well-ventilatedfortifications than in poorly ventilated ones of thesame size. Casualties in fortifications may result fromsuffocation (because oxygen from the air is consumedby the flame) or from actual burns.

Other TargetsPersonnel in open fighting positions are vulnerable toflame. Thickened and pyrophoric fuel tends to stickto the clothing and skin of the occupants and the area,forcing the occupants to abandon the position or stayand be burned by the flaming fuel and risk becomingcasualties.Occupants of built-up areas can be forced to abandontheir positions or become casualties, either fromcontact with the burning fuel or from fires caused byignition of combustible materials (such as woodenbuildings).Personnel concealed in vegetation can be forced toabandon their positions or become casualties.If the burning fuel penetrates the occupiedcompartment of the vehicles, personnel in armoredvehicles may become casualties unless they abandonthe vehicles. Armored vehicles buttoned up andmoving are not good targets for flame. The burningfuel must penetrate the openings of the vehicles to beeffective. Burning fuel will not ignite the tracks ofmoving armored vehicles. Incendiary devices attachedto or penetrating the openings of armored vehiclescan be effective in disabling the vehicles.Personnel in unarmored vehicles will becomecasualties or be forced to abandon the vehicles ifflaming fuel is placed in them, since any combustiblematerial in or a part of the vehicles may be ignited ordamaged.Weapon positions may become untenable if hit withburning fuel or incendiary material. Occupants maybecome casualties and weapons and ammunition maybe damaged.Wires and cables covered with combustible materialmay be damaged by ignition of the coverings fromburning flame fuel or fires from flame or incendiarydevices.Small arms ammunition may be destroyed by use offlame fuels and/or incendiary devices.

Generally, supplies that are combustible may bedestroyed or damaged by flame fuels.Noncombustible supplies can be damaged ordestroyed by incendiary devices or by secondary firesfrom combustible materials; for example, suppliesstored in a wooden building would be damaged byfires that destroyed the building.

WEATHER EFFECTSON FLAME FUELSAND WEAPONS

Wind has minimal effect on the M202A1’s range andaccuracy.Rain has little effect on flame fuel in flight. Flamefuel will float and burn on water. The incendiaryeffect is less on damp material than on dry material.Snow has little effect on flame fuel in flight.However, snow tends to smother flame, reducing itsincendiary effects in the target area.High temperatures tend to increase the fuel’sincendiary action. Flame fuels in high temperaturesmay have to be thickened so that they do not burnexcessively in flight to the target. Low temperaturesdecrease the incendiary action and more fuel may berequired to ignite combustible materials. Additionallyat low temperatures, flame fuel may have to be madeless thick to ensure ignition. Specific precautions andprocedures must be followed in fuel selection,preparation, storage, and firing.

DESTRUCTION TOPREVENT ENEMY USE

Materiel subject to capture or abandonment in acombat zone (except medical) is destroyed by theusing unit only when, in the judgement of the militarycommander concerned, destruction is necessary tokeep the materiel from falling into enemy hands.Emergency destruction procedures for fuel,ingredients, and flame weapons are given below.Detailed methods of equipment destruction arepresented in appropriate technical manuals andbulletins pertaining to specific items of equipment.Flammable fuels or lubricants may be destroyed byburning or pouring on the ground.Thickeners may be destroyed by opening thecontainers and either dumping the contents into wateror tire or spreading the contents on the ground.

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FM 3-11/MCRP 3-3.7.2

M202A1 rocket launchers and M74 rocket clipsshould be destroyed by burning, demolition, gunfiie,or disposal.

FLAME EMPLOYMENTPRINCIPLES

Flame weapons are employed for both anti-personneland anti-materiel effects. This principal use inoffensive operations reduces fortifications, suppressesfire, and produces casualties or exposes enemypersonnel to the fire of other weapons. In defensiveoperations they complement other weapons in fireplans. They can be used to destroy buildings andequipment, clear tunnels, destroy food, clear lightvegetation, counter ambushes, illuminate defensiveareas, warn of enemy approach, and restrict enemyuse of trails and paths.

TacticsFlame assumes great importance in ground warfareagainst an enemy whose tactics place emphasis onmass in the attack and stubborn, unyielding resistancein the defense. Even in relatively fluid, rapidlychanging situations, an enemy may be able toestablish excellent defensive fortifications, requiringincreased use of flame for destruction.The M202A1 and incendiary grenades are usedprimarily in offensive operations while FFEs are usedprimarily in the defense. The M202A1 can be used inboth offensive and defensive roles because of its lightweight, great range, and minimal servicerequirement. The decision to use M202A1, grenades,or FFEs is based on their comparative effectivenessfor the particular mission.In planning the attack, the commander considers theuse of flame as a part of his fire support plan.Defensively, flame weapons may be used in thecoordinated plan for fires and in support of thecounterattack. Flame can often be used to blunt anddisrupt mass enemy attacks, but the disadvantages offlame in both defensive and offensive operations mustbe considered. Careful planning and coordination areneeded for maximum benefit from the use of flame inthe attack or defense.

OFFENSIVE FLAMEUSE

Flame has many qualifications as an offensive assaultweapon. It demoralizes, produces casualties, andignites combustible material; and it has good

searching capability through its splattering action.When combined with infantry, tanks, and supportingfires, flame contributes greatly to the accomplishmentof the mission. It is particularly effective whencombined with infantry fires during the last stages ofthe assault. Flame weapons can be decisive against anenemy lacking any tank or fire support other thanautomatic weapons.Plans should be as simple and direct as possible.Apply the following basic principles of employmentin planning for the use of flame weapons in the attack.As with other weapons, a proper reconnaissance is amust for successful employment of flame weapons.The target and any element supporting it must belocated; a route of approach that offers protectionfrom enemy fire must be selected; and the amount offlame required and the need for demolition andbreaching support must be determined. The M202A1can be employed without a thorough reconnaissance ifthe rear danger zone and the minimum safe rangerestrictions are observed.Use sufficient flame. The number of flame weaponsused depends on a number of factor—the size andnature of the objective, the terrain, and the enemies'morale and physical condition, for example.Piecemeal use of the M202A1 should be avoided. Theenemy should be made to feel that unless hesurrenders or withdraws immediately he will beburned to death. Within control capabilities forcoordination of flame weapons supporting themaneuver force, the more flame that can be placed onsuitable targets, the greater the probability of successduring the attack. The attack should be pressedboldly. Supporting fires must lift or shift as necessaryto allow flame weapons to close with the enemy.These fires should continue on enemy supportingpositions.Follow up with infantry. The enemy seldom fights athis best when he is caught in a flame attack. Heusually does one of three things: surrenders, runs, orhides under cover. If he runs before the arrival of theflame, he may return to his position when the attackis over, even though the flame fuel is still burning onthe ground. Enemy positions in the flame attack areamay hold their fire until the flame attack is over. It isessential, therefore, that infantry supported by aflame attack follow it closely and quickly before theenemy can regain his position or reorganize hisdefenses. Friendly infantry must and can enter thearea while flame is still burning on the ground.Troops must be given training in following a flame

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attack closely and in dashing through flame on theground. Surprise and shock must be exploited to thefullest extent. Success in any tactical operationdepends largely on the timing and coordinationbetween the flame teams and the unit with which theyare operating.Rehearse. Time should be made available forrehearsals for flame attack. Rehearsals should beconducted on ground similar to the terrain to betraversed and against a point resembling theobjective. If the attack is to be made at night,rehearsals should be conducted at night.

DEFENSIVE FLAMEUSE

The use of flame weapons can be a major factor inthe successful defense of any position. Flameweapons are particularly effective in disrupting thefinal stages of an enemy assault. The short range offlame weapons, however, restricts their employmentand requires that they be carefully located to obtainthe best advantage. The longer range of the rocketlauncher increases that weapon’s flexibility.The following flame weapons/munitions can be usedin the defense: M202A1 and FFEs. These weaponsare integrated into defensive fire plans to supplementor reinforce other fires. Defensive flame fire plansmay employ flame weapons uniformly within unitareas, massed at likely avenues of approach againstanticipated massed enemy assaults, or may deploythem in reserve blocking positions ready for use inthe counterattack. Particular attention is given to theresupply or replacement of empty flame weapons toensure sustained support for the defense.Flame weapons are most effective when integratedinto the plan for fire support and the obstacle plan.They are used to supplement or reinforce otherdefensive fires or to defend a small sector not coveredby other weapons.The basic considerations of defense apply to the useof flame:Proper use of terrain. Flame teams are located on keyterrain on the perimeter of the platoon defense areas.FFEs may be emplaced in the gaps between platoons,in approaches to the position, or on key terrainforward of the battle position that the defending forcedoes not plan to hold, and in blocking positions indepth.

Defense in depth. FFEs are placed in likely areas ofpenetration. The use of these expedients iscoordinated with counterattacking forces.Mutual support. FFEs should be integrated into finalprotective fires and should be emplaced to providemutually supporting area coverage. A technique is touse FFEs to fill gaps between indirect fire targets andforce or canalize enemy troops into final protectivefires.All-round defense. FFEs may be positioned to protectthe flanks and rear of the position.The fire plan. FFEs can be used to supplement thelong-range and close defensive fires of mortars andartillery. However, coordination is required toprevent duplication of effort and destruction of theFFEs by friendly fires. FFEs can also be used ininternal defense operations to counter ambush, clearunderbrush, illuminate defensive areas, serve aswarning devices, and inflict casualties on theattacking troops.Reinforcement of obstacles. Natural and artificialobstacles can be reinforced or extended by flameweapons. For example, flame fuel floats and burns onwater and can be used on shallow streams to preventassaulting foot troops from crossing. FFEs can beused as floating flame devices. FFEs must be usedcarefully to avoid damaging mines or destroyingcamouflage.Antitank measures. Armored vehicles can often movesafely through flame fuel burning on the ground if thearea is traversed quickly and the flames are not highenough to be sucked in through vents. However,flame fired directly on a tank can neutralize it byobscuring the driver’s vision, seeping inside throughvents, or setting the tank afire. The minimum effect isprofound fear and decreased efficiency of the tankcrew. FFEs may be located on probable tankapproaches.Brush and forest fires. Flame weapons must be usedcarefully to avoid starting brush and forest fires thatmay hinder the defense. When it is desirable to startfires deliberately, consider the following factors:

Probable effect on enemy operations.Danger to friendly troops and installations.Effect on friendly observations.Effect on future friendly operations.Effect on environment.Effect on noncombatants.

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CHAPTER 3

Flame Fuels

The three types of flame fuels are unthickened, Burning unthickend/thickened fuel is very effective. .thickened, and triethylaluminum (TEA). Unthickened against personnel caught in the open.fuel is a thin, pourable, highly flammable liquidcomposed of gasoline and oil. Thickened fuel is a THICKENED FLAME FUELSthick, jellylike substance ranging in consistency from Thickened fuel consists of a thickener and gasoline.a pourable liquid to a rubbery, very thick gel. TEA is The Army uses two different thickeners, M4 and M1.a thickened pyrophoric substance similar to whitephosphorus. It burns spontaneously at temperatures of M4 thickener is a fine white powder that is a1,400 to 2,200 degrees Fahrenheit when exposed to by-product of petroleum processing. Even though M4air. thickener is hydroscopic (absorbs water from the air),Use unthickened fuel in situations where range is notan important factor or when fuel is needed on shortnotice. Unthickened fuel has advantages: you canprepare it quickly and it is readily available;however, it has a short range of about 20 meters andis quickly consumed. Another disadvantage is thatunthickened fuel offers little penetration offortifications or fighting positions. It does notrebound effectively from surfaces.Thickened fuel requires equipment, time, andpersonnel for mixing, aging, and transferring. Unlessyou store it in airtight steel containers, thickened fuelhas an uncertain period of stability. However,thickened fuel burns longer than unthickened fuel andclings to a target. It splashes across surfaces and,therefore, is effective when employed during militaryoperations on urbanized terrain (MOUT). Since youwill use thickened fuel more extensively thanunthickened fuel in flame field expedients, thischapter will primarily address thickened fuel.Both thickened and unthickened fuels are used to kill,dislodge, and demoralize personnel, to neutralizefortifications, and to destroy flammable material.

you may reseal a partially used container and store itfor one day. M4 thickener comes in 2.5-pound cansor 100-pound drums.M1 thickener is a coarse, light tan, granular materialthat is extremely hydroscopic. The presence ofmoisture in it decreases its ability to form a stableflame fuel. You should discard a partially usedcontainer of M1 thickener.

Thickened FuelFlame field expedients use number 3 flame fuel. Theconsistency of the fuel is based on a factor of 3 indetermining the amount of thickener to add to aspecific amount of gasoline. When mixing a batch offlame fuel, use the applicable equation for either M4or M1 thickener.

CONTENTSThickened Flame Fuels . . . . . . . . . . . . . . . . . . . . . . . . . 3-0Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4

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CHAPTER 4

Exploding Flame Devices

Historically, exploding flame devices have beenemployed with great success in combat. In the KoreanConflict, the 8th Cavalry Regiment, 1st CavalryDivision, inflicted casualties on the ChineseCommunists with strategically placed exploding flamedevices. During combined operations in the Republicof Vietnam, the 10lst Airborne Division and the 2dRepublic of Korea Marine Brigade made extensiveuse of FFEs to the south of Da Nang to clearvegetation and rid several areas of booby traps.

GENERAL INFORMATIONExploding flame devices cause casualties by inflictinginjuries from burning fuel and flying debris. Thesedevices also have a great psychological effect thatmay deter or slow an enemy attack. All explodingflame devices consist of a container, incendiary fuel,and a firing system (burster and igniter) to scatter andignite the fuel. The size of the area covered dependson the size of the container and the firing system used.

ComponentsField expedient flame weapons generally consist offour basic components--a container, fuel, an igniter,and a burster. Appendix B contains detailedinformation on the proper use of demolitionaccessories.

ContainerAnything that will hold the fuel, such as a standardissue military canteen or even a 55-gallon drum, canserve as a container.

FuelFuel is a combustible liquid that produces animmediate fire, such as thickened or unthickenedMOGAS.

IgniterAn igniter is an incendiary used to set the explodingfuel alight. M49 trip flares, incendiary grenades,M34 white phosphorus (WP) grenades (combat useonly), or even small containers of raw gasoline maybe used. An expedient method for employing rawgasoline as an igniter is to fill a used meals,ready-to-eat (MRE), bag with gasoline and seal itwith tape. This will produce enough immediate fire toensure ignition of an FFE device.

BursterA burster is an explosive charge that scatters the fuel.Examples of bursting charges include, but are notlimited to, trinitrotoluene (TNT), composition C4,M4 field incendiary bursters, detonating cord, and

NOTEExpedient battlefield illuminators do notdetonate; there is no need for a bursterwhen employing this type of FFE. Battlefieldilluminators are discussed in Chapter 5.

CONTENTSGeneral Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1Electrically Initiated Devices . . . . . . . . . . . . . . ...4-2Bunker Bombs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6

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FM 3-11/MCRP 3-3.7.2

CHAPTER 5

Flame Illuminators

The main purpose of flame illuminators is to provideextended burning time with maximum illumination,although they may also produce casualties. You mayuse flame illuminators for warning as well asillumination by contact detonation. This chapterdiscusses some improvised flame illumination devicesused for limited battlefield illumination.Flame illuminators vary and may be constructed ofmany differing components. FFE illuminators include5-or 55-gallon flame illuminators, hasty flameilluminators, water illuminators, field expedientilluminators, Husch flares, and illuminated signalarrows.

5- OR 55-GALLONFLAME ILLUMINATORS

You can construct a flame illuminator (Figure 5-1)from a 5-gallon or a 55-gallon drum filled withthickened fuel, tightly sealed, and set into a hole withthe top slightly below ground. Five turns ofdetonating cord are wound around the inside edge ofthe drum top and tightly tamped with mud. Whendetonated, the detonating cord cuts off the drum topand an M49 trip flare or M34 WP grenade (in combatonly) placed on top of the drum, ignites the thickenedfuel.The fuel will burn for several hours. However, youmay control burning time somewhat by the size ofcontainer used, the thickness of the fuel mixture, andthe addition of straw or dirt to the thickened fuel.Each 55-gallon flame illuminator requires thefollowing ammunition:

100 foot of detonating cord.

Nonelectric blasting cap.Seven and a half feet of M700 time fuse.M60 fuse igniter.Electric blasting cap.

CONTENTS5- or 55-Gallon Flame Illuminator . . . . . . . .5-0Hasty Flame illuminators . . . . . . . . . . . . . . . . . . . . . . 5-1Water Illuminators. . . . . . . . . . . . . . . . . . . . . . . . . 5-1Field Expedient Illuminators . . . . . . . . . . . . . . . 5-1Husch Flares . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1Illuminated Signal Arrows . . . . . . . . . . . . . . . . . . . . . 5-2

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FM 3-11/MCRP 3-3.7.2

CHAPTER 6

Riot Control Agents

Riot control agents disable hostile forces or riotingpersonnel for limited periods of time by producingtemporary disabling physiological effects when theycome into contact with the eyes or skin or when theyare inhaled. Their effects are typically peripheral,such as irritation to the eyes, mucosa, respiratorytract, or skin. The effects generally subside quicklyonce the individual is removed from the atmosphereof the RCA. On the other hand, incapacitatingconcentrations can act systemically, have longerlasting, more profound physiological effects such asimmobilization of limbs, systemic interference ofbreathing, disruption of cognitive function or any ofseveral other centrally controlled effects. Thephysiological effects may continue after personnelleave the target area. RCA levels at 5-10 milligramsper cubic meter (mg/m3) achieve incapacitatingconcentrations. Training concentrations (1-3 mg/m3)for CS are irritating concentrations normally found inchamber or field training exercise settings. In tacticalconcentrations, RCAs do not permanently injurepersonnel but should be used like incapacitating

congestion, or heart conditions) may experienceincreased irritation and incapacitation upon exposureto these agents. Agent CN (popularly known as maceor tear gas) and its analog are considered obsolete formilitary employment; most CN munitions have beenphased out of the system.

CSIn 1959, the US Army adopted CS(orthochlorobenzalmalononitrile) for combat trainingand riot control purposes. The Army has found it tobe both safe and effective, especially for training andcreating combat realism in low concentrations. OnlyCS in a capsule form may be used in the CS chamber.In Vietnam, CS was an effective incapacitant whileits variable persistency made it an economicalcontaminant. Different forms of CS have differentpersistence characteristics, due to their formulation,dissemination, and rate of hydrolysis. CS is normallyused either as a pure powder in bulk form or aspellets in a pyrotechnic mixture for employment in

agents. In enclosed places, prolonged exposure to theresulting high dosages of RCAs can kill or disablepersonnel and can cause serious physiologicalreactions. Detailed descriptions of RCA munitionssystems can be found in Appendix B.

STANDARD AGENTSThe standard RCAs currently in the US Armyinventory are CS, CSX, CS1, CS2, and CR. Thephysiological effects desired and the disseminationmeans available determine the choice of RCA to usein a particular situation. Individuals havingrespiratory problems (such as colds, asthma, lung

CONTENTSStandard Agents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1Oleoresin Capsicum . . . . . . . . . . . . . . . . . . . . . . . . . . . .6-3Protection Against RCAs . . . . . . . . . . . . . . . . . . . . . . 6-3Physiological andSafety Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . 6-3Treatment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-4Operational Considerations . . . . . . . . . . . . . . . . .6-5

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burning grenades and bomblets. A yellowishpowdered solid in pure form, CS has a characteristicpungent pepper-like odor. Employed in aerosol form,CS irritates the eyes, nose, throat, and (if used insufficiently high concentration) will cause militarilysignificant incapacitation. By weight, theeffectiveness of CS is about 10 times that of CN. Thesymptoms of exposure to training concentrations ofCS are—

Extreme burning of the eyes, with much tearing,coughing, and difficulty in breathing with tightness inthe chest and pain in breathing.

Involuntary closing of the eyes.Heavy mucous formation in the nose with sinus and

nasal drip.Stinging or burning on moist skin areas.

Exposure to field concentrations may cause nauseaand vomiting and prolonged exposure to CS on skinmay cause severe irritation and blistering.Incapacitation is caused by the individual’s inabilityto see or preoccupation with the agent’s effects.Effects of the agent appear almost immediately andwill continue as long as the individual is exposed.Affected individuals usually recover within 10minutes in fresh air. CS has been specially formulatedfor varied dissemination characteristics and/or effectsas CSX, CS1, and CS2. CSX is a form of CSdeveloped for dissemination as a liquid rather than apowder. One gram of powdered CS is dissolved in 99grams of solvent trioctyl phosphate (TOF) and isdispersed as a liquid aerosol from the M32 hand-helddisperser (see Appendix B). As with CS, CSX causesstinging and irritation of the eyes, skin, nose, throat,and lungs of exposed personnel. It is only available inM32 hand-held dispersers.Variations in the formulation of CS result in differentpersistencies for CS, CS1, and CS2. CS originatingfrom burning munitions is disseminated only as anairborne cloud and its persistence depends mainly onair movement. The aerosol particles, once contactingthe ground or other surfaces, adhere and do notre-aerosolize. Due to the relatively low volatility andrapid rate of hydrolysis, the CS aerosol usuallypresents a negligible residual hazard. However, acertain amount of caution must be exercised, sincepockets of the airborne agent may linger in closedstructures or other places where movement of air isslight.

CS1CS1 has been specially formulated to prolongpersistency and increase effectiveness. Unlike CS,CS1 is free-flowing agent powder (95 percent CS to 5

percent silica aerogel), that is readily usable indisseminating devices (for example, spray tanks) thatrequire a free-flowing material. CS1 is CS blendedwith silicone-treated silica aerogel which not onlyprevents coagulation and increases fluidity, but alsomarkedly increases its resistance to water. This formof CS prolongs the effectiveness for both immediateand surface contamination effects for direct andresidual use. As CS1 settles out of the air, it readilycontaminates terrain, vegetation, personnel, andequipment. When disturbed, CS1 re-aerosolizes tocause respiratory and eye effects.CS1 exhibits typical CS activity for several days ondry ground at initial incapacitating concentrations(5-10 mg/m3). Persistency tests have shown that CS1can remain effective for about 14 days when usedinside a dry tunnel or bunker and about 7 days onopen terrain under ideal environmental conditions.

CS2CS2 is far more resistant to water degradation,maintaining an effectiveness for a periodapproximately double that of an equivalent initialconcentration of CS1. It is so resistant to wetting thatwhen spread upon the surface of a body of water,agitation of the surface by wind or wading mayregenerate an effective aerosol. CS2 will remaineffective on open terrain under suitable conditions forabout 30 days. Although rain does not effectivelydissolve the agent, it may physically wash away fromthe site of deposit. High winds will dissipate it.

CRIn 1974, the US Army approved the use of CR(dibenz (b,f-1, 4-oxazepine) in riot control situations.CR has a stronger harassing action than CS. Inaddition, the toxicity of CR is lower than that of CS.CR is not used in its pure form (a yellow powder) butis dissolved in a solution of 80 percent propyleneglycol and 20 percent water to forma 0.1 percent CRsolution. As a solution, the operational flexibility ofCR increases since it can be dispersed on the targetareas as a liquid rather than as an aerosol cloud. CRis a highly potent irritant that affects the eyes,respiratory tract, and exposed skin. Eye pain,discomfort, and excessive tearing occur withsometimes painful sensitivity to strong light. Nasalirritation, coughing, sneezing, and nasal drip alsooccur. Exposure of the skin to CR results in astinging or burning sensation with increased irritationon moist skin. Sometimes these symptoms areaccompanied by nausea and vomiting, and can persistfrom 15 to 30 minutes. Severity of symptoms

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FM 3-11/MCRP 3-3.7.2

increases with the CR solution concentration in anenvironment of high temperature and humidity.CR is quite persistent in the environment. The CRsolution provides effective wetting and spreading ofthis agent on all surfaces. It does not degrade in waterand can be considered as persistent or more persistentthan CS2. Under suitable conditions, CR can persiston certain surfaces (especially porous material) for upto 60 days.

OLEORESIN CAPSICUMA possible nonstandard riot control agent is oleoresincapsicum (OC or pepper spray). This agent is mostoften used by the military police for incapacitatingviolent or threatening subjects, but also hasapplications for special forces and stability andsupport operations. OC is a naturally occurringsubstance found in the oily resin of cayenne and othervarieties of peppers (can also be producedsynthetically).Contact with OC particles in a sprayed mistincapacitates subjects by inducing an almostimmediate burning sensation of the skin and burning,tearing, and swelling of the eyes. When inhaled, therespiratory tract becomes inflamed causing themucous membranes to swell. This restricts breathingto short, shallow breaths.As stated earlier, standard RCAs also cause tearingand respiratory discomfort (irritant effects), but donot induce the inflammation and swelling effects ofOC. When sprayed (OC is dispersed in hand-heldcanister similar to M32/36) most people cannot keeptheir eyes open unless they physically hold theireyelids apart due to the swelling. Fear anddisorientation often result from this temporaryblindness. Affected personnel may also lose strengthand coordination due to the shortness of breath.Treatment and decontamination procedures:

Move to uncontamimted air.Flush face with cool water; if burning persists, use

icepack.Do not rub area.Remove contacts, if applicable.Decon required areas with soap and water.

OC effects usually last approximately 15 to 45minutes. If symptoms have not abated within 45minutes, seek medical attention.Limits of OC include:

Alcohol-based sprays must not be used aroundflames/sparks.

Effective range of OC is 4 to 6 feet (maximumrange is approximately 25 feet).

Personnel should not spray an individual closer than2 feet from themselves to prevent being affected.

Rain and wind decrease effectiveness.Eyeglasses/sunglasses may deflect agent (shift aim

to nose/mouth).Perspiration may cause longer agent effects.OC may have detrimental effects on people with

pre-existing respiratory problems.As with any RCA, personnel must be properlytrained on OC’s capabilities/employment, limitations,and applicable rules of engagement/ARs prior to use.

PROTECTIONAGAINST RCAs

Use the following measures to protect against RCAs.Protect the eyes and respiratory passages from CS byimmediate masking. A dry field uniform will usuallyprovide adequate protection for a short time in mosttactical situations. Those personnel handling andloading bulk CS should wear protective clothing,masks, and gloves. Personnel exposed to CS1, CS2,and CR should wear protective clothing, masks,hoods, and gloves. Protective clothing should besecured at the neck, wrists, and ankles.

PHYSIOLOGICAL ANDSAFETY CONSIDERATIONS

RCAs produce effects that must be considered forboth tactical and training uses. The RCAs in trainingconcentrations will produce temporary, irritatingeffects to normal, healthy individuals. Thesepersonnel will recover from the exposure quiterapidly. However, individuals with a common cold,asthma, lung congestion, high blood pressure, orcardiovascular problems will experience increasedeffects and may suffer longer recovery times.Therefore, they should not be exposed to these agentsduring training exercises. Pregnant soldiers with anexempt letter from a doctor should also be exemptfrom training with RCAs.Particles of CS remaining on exposed skin for longperiods can cause severe burns. CS should beimmediately flushed from the skin with cold water.Prolonged, continuous, or even intermittent exposureto field concentrations of CS combined with a hightemperature and humidity may result in a cumulativeeffect (more intense stinging, tearing, watering of theeyes).

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FM 3-11/MCRP 3-3.7.2

Food and drink contaminated with CS can be detectedeasily since it is quite repulsive to the taste. Whenfood items are suspected to have been contaminatedby CS in training, check them using the followingprocedures: (Do not use these procedures in combatwhen chemical or biological agents may also bepresent.)

If packaged, clean the package and check for leaksor damage. If no odor is present, the food is probablynot contaminated. If the package is damaged orleaking, unpack the contents and inspect them.

If unpacked, sniff to detect RCA odor. If none thefood may be safe to eat. However, when in doubt,discard the package. If the food is contaminated, youmay be able to trim the food and remove thecontaminated portions. The same procedures apply tofood immersed in water or in covered containers. CRshould be stored in nonporous containers onnonporous surfaces. It will leach into porous materialand can be extremely persistent.

TREATMENTPersonnel exposed to RCAs should administer selfaid/first aid and decontaminate as soon as possible.When exposed to CS, CS1, or CS2, personnel shouldadminister self aid/first aid and decontaminate asfollows: Upon exposure to these agents, don theprotective mask, clear it, and try to keep the eyesopen as much as possible. With or without theavailability of a protective mask, move out of thecontaminated area into fresh air and face the wind.When in a safe area, remove the mask and blot awaytears; do not rub the eyes. If CS has entered the eyes,force them open and flush with water. Contact lensesare not approved for wear during training with CS.Minute particles can be trapped in the fluid betweenlens and eye, causing intense prolonged effects.Chest discomfort can usually be relieved merely bytalking. If exposure has been heavy, significant skinreactions may develop. Immediately flush the skin orexposed areas with large amounts of cold water. A5-or 10-percent sodium bicarbonate solution in wateror a specially prepared wash solution (6.7 percentsodium bicarbonate, 3.3 percent sodium carbonate,and 0.1 percent benzalkonium chloride in cold water)is superior to water and should be used only in smallamounts. Do not use these solutions in the eyes.Oil-based lotions and skin decontamination kitscontaining bleach should not be used. CS reacts withbleach to form a combination more toxic to the skinthan CS alone.

Decontaminate CS, CS1, and CS2 on surfaces andequipment using soap and water, especially for largearea or surface decontamination. The higher thebasicity of the decontaminant, the better. A moreeffective decontaminant for these RCAs on soil andclothing consists of 18 percent sodium hydroxide and82 percent isopropyl alcohol (20 minute contacttime). An alternate solution of cold water containing10 percent monoethanolamine (MEA) and 0.3 percentnon-ionic detergent (such as triton X-100 or IgepalCO-630) requires 30 minutes contact to be effective.Do not use chlorine bleach, oxygen bleach, standarddecontaminants, or detergents containing bleach toclean up CS. These materials can react with CS toform chemicals that are more toxic than CS ( forexample, expoxides which cause vesicant (blistering)injuries).Personnel exposed to CR should administer selfaid/first aid and decontaminate as follows—

Upon exposure to CR, personnel should mask (ifavailable) and remove themselves from thecontaminated area into fresh air. If CR has enteredthe eyes, flush them with large amounts of cold wateror water containing 2 percent sodium carbonate whileholding the eyelids opened.

If the skin is exposed to CR, wash the exposed areagently with soap and cold water or use a delugeshower if available. Individuals who have ingestedCR should be given lots of water or milk. Do notinduce vomiting. Do not use bleach, bleachcontaining decontaminants, detergents, or peroxidesfor decontamination; this combination releases toxicfumes.Physical removal of the CR solution is the onlyapproved method of decontamination. Todecontaminate CR on equipment or on surfaces,remove CR by using towels, rags, absorbent paper,or any other method such as scraping, shoveling, orsweeping. If available, wipe the area with ragssoaked in propylene glycol or an automotiveantifreeze solution, then wipe with rubbing alcohol,and then scrub with non-bleach detergent and hotwater before rinsing with large amounts of coldwater. Even though physical removal eliminates mostof the hazard, enough CR will remain to irritate theeyes. Wash hands thoroughly with soap and coldwater before touching the face, eyes, or groin. Placeall contaminated materials used to decontaminate inan approved storage container where they cannotaffect personnel.Soldiers who become highly contaminated with CSspray should remove their clothing as soon as feasible

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FM 3-11/MCRP 3-3.7.2

and take a shower or bath using plenty of soap andwater. If contaminated, flush the eyes with largeamounts of water. If exposure has been heavy,significant percutaneous (through the skin) reactionsmay develop. The individual may prevent this byimmediately rinsing the skin with large amounts ofwater. However, 5 percent sodium bicarbonate orsodium carbonate in water or a specially preparedcutaneous wash solution is superior to water and isneeded only in small amounts. Do not use suchsolutions in the eyes.To prepare the cutaneous wash solution, add 100grams of sodium bicarbonate, 50 grams of sodiumcarbonate, and 15 milliliters of 10 percentbenzalkonium chloride to 1,500 milliliters of distilledwater. This solution is stable and is prepared inadvance, if needed. The pharmacy may issue withoutprescription. CS agents affect the eyes, therespiratory tract, and moist skin areas of the body. Afield protective mask and field clothing with collarand cuffs buttoned and trouser legs tucked into bootswill protect against field concentrations of the agents.Personnel handling or dispensing bulk CS wearrubber gloves, hood, rubber boots, rubber apron,protective mask, and field clothing secured at theneck, wrists, and ankles.Those affected by CS should move to fresh air and

face into the wind for 5 to 10 minutes, avoid rubbingeyes, and keep well apart from other affectedpersonnel. If gross accidental contamination with CSagent occurs, promptly rinse the body with coolwater. Remove the remainder of the agent, except inand around the eyes, with a 5 percent sodiumbisulphite solution, then rinse the body with water. Ifsodium bisulphite is not available, use a 1 percentsolution of sodium carbonate, sodium bicarbonate, oryellow general issue soap and water. Whenshowering after any exposure to a CS agent, firstrinse the body with cool water for 3 to 5 minutesbefore proceeding with normal showering. If agentresidue is on the clothing, remove the clothing toprevent unmasked personnel from being affected.Showering and laundering of clothing after exerciseswill minimize the risk of skin irritation followingexposure to CS. Soldiers who may be exposed to CScan reduce skin exposure by rolling down sleeves.

OPERATIONALCONSIDERATIONS

The behavior and tactical effectiveness of RCAs insupport of military operations are affected by theweather, by the terrain in the target area, and by the

defense posture and training of target population.Understanding weather effects on RCA agentbehavior is essential to ensure maximum effectivenessin planning and conducting operations.Conditions that are most favorable for RCAdispersion and placement on a target would be stable(inversion) atmospheric conditions where the windspeed is less than 5 to 8 knots. Under neutralatmospheric conditions with low windspeed andsmooth terrain, large areas may be covered withRCAs. Neutral conditions may be the best formilitary planning purposes since these conditionsusually occur more often than stable or unstableconditions. The least favorable conditions for RCAemployment are heavy rains and unstable (lapse)atmospheric conditions where windspeeds are greaterthan 10 knots. Although light rains will not seriouslydegrade the effectiveness of most RCAs, heavy rainswill wash RCAs out of the air and off surfaces.Temperature also has an effect on RCAs. Althoughthe rate of evaporation of liquid RCAs increases withincreasing temperatures, humans perspire more freelyat higher temperatures, increasing skin effects fromRCA exposure. In contrast, at lower temperatures,personnel will be wearing multi-layered clothing thatprovides a more effective barrier to skin exposure. Inthis case, RCAs may still be employed effectively fordelayed harassing effects against troops who musteventually remove their contaminated clothing.Terrain, contour, and surface areas also influence theeffectiveness of RCAs. Under stable weatherconditions, the agent cloud tends to flow over rollingterrain and down valleys. Higher concentrations tendto flow around obstacles such as hills and persist inhollows, low ground, depressions, and foxholes. Inurban areas, the dominating terrain (buildings,streets, and trees) tends to channel wind and createeddies and currents that can be very unpredictableand cause the agent cloud to dissipate more rapidly.Turbulence on the downwind sides of buildings willtend to pool RCA concentration close to thebuildings, and may penetrate closed structuresthrough doors and windows.Rough ground and ground covered with tall grass orbrush tends to deflect and retard cloud movement,while flat terrain and open water (under stable orneutral conditions) allows an even, steady cloudmovement and flow.When RCAs are employed into wooded areas, thethickness and height of foliage determines agenteffectiveness. A dense canopy tends to create a

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FM 3-11/MCRP 3-3.7.2

physical barrier that resists penetration of aerosol andparticulate clouds from the outside while preventingescape of RCAs already under the canopy. The agentclouds released from munitions within woods andjungles are generally smaller and higher inconcentration (by as much as three times) than thosereleased in the open. Wooded and jungleenvironments also require larger munitionexpenditures because some rounds will detonate ontreetops with less agent penetrating to ground level.Soil type and condition also affect the efficiency ofRCA munitions. For instance, point detonatingdevices tend to bury into the porous surfaces andevaporate more slowly than from nonporous surfaces.As a result, a decrease in the cloud size and areacoverage could occur. When this soil is disturbed bytraffic, the RCAs may become airborne with renewedeffectiveness.The overall utility of RCAs is greatly influenced bythe discipline, motivation, and degree of readiness ofthe soldier. RCAs have been shown to be least usefulagainst well-trained and well-equipped soldiers. Test

results have shown that a very high level ofadaptation or tolerance to CS may develop underconditions of extreme motivation or where escape toclean air is not possible. However, RCAs in surprisedosages can still incapacitate significant numbers ofwell-trained and equipped soldiers. Performancedegradation will be achieved when enemy soldiers areforced to don protective clothing and masks. Enemyuse of terrain may also be restricted. RCAs can alsobe used to complement or enhance other munitionsbeyond the effectiveness or either used alone.In many tactical situations, the employment of RCAscannot wait for optimum environmental conditions.Their effectiveness often depends on immediate usewhen and where the situation demands. Whenemployed under adverse conditions, additionalmunition expenditures and off-target attacks mayincrease on-target RCA effects. However, RCAemployment depends primarily on the tacticalsituation, regardless of the conditions that exist at thetime.

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CHAPTER 7

R C A

Employment

Specific techniques for employing RCAs in different comrades are going. To do this you can:situations are addressed in this section. This is onlyafter the appropriate authority has given release foruse of RCAs or a rules of engagement has beenestablished.

AMBUSH RELIEFFriendly forces may not be able to react with lethalfires because of the danger of collateral injuries.Mounted forces can react to ambushes with RCAs.E8 launchers can be placed on vehicles and properlyoriented for immediate firing to the flanks. TheseE8-equipped vehicles are then spaced at intervalsthroughout the convoy, and can be commanddetonated if the convoy is ambushed. CS can also be

Lob RCA agents into the center of the crowd.Attack the crowd with RCAs from different sides in

coordinated staggered time intervals (as opposed tosimultaneously).

GroupingThe purpose of causing a rioting crowd to group is tocontain the area they will be able to affect, thuslessening the impact of their rioting and allowing youto focus your resources onto a smaller area.In order to do this you must use RCAs to cut offdifferent avenues of escape until you have containedthe crowd.

used in support of withdrawal operations.

RIOT CONTROLIn conducting riot control operations the mainobjective is to "control" the rioting crowd into doingwhat we want, be that dispersing, grouping, moving,or channelizing. For further riot control guidance, seeFM 19-15, Civil Disturbances, Nov 85.

DispersingThe purpose of dispersing a rioting crowd is to haveit break up and move off into different unorganizeddirections. The psychology behind a crowd is suchthat an individual is less emboldened to react withhostile intentions when alone than with a group ofsupporters.In order to produce this dispersion, you must create achaotic effect in the mind of the rioter so that he doesnot know which way to go or which way his

CONTENTSAmbush Relief . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1Riot Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1Rescue Missions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2Convoy Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2Nuclear WeaponsSecurity Operations . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2Military Operationsin Urban Terrain . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-3Base/Perimeter Defense . . . . . . . . . . . . . . . . . . . . . . . 7-3Terrain Restriction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-3Employing Small Area Munitions . . . . . . . . .7-4Employing Dispersers . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-4

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Moving Supporting theMoving the rioting crowd is akin to grouping, but Delaying Actioninstead of cutting off all avenues of escape for the Once the rescue force has successfully extracted therioting crowd, you leave obvious avenues open forthe crowd to take. These obvious open avenues lead encircled force in order to further cripple the enemy’sto where you want the crowd to go. This moving pursuit, RCAs may be used to delay and hinder their

technique is used when you need to occupy the area organization and movement. This is done by havingthe crowd is currently in or want them to move to a the rear guard attack any pursuing forces with RCAs.different location but do not have the assets to totallycontrol them.You can do this by first attacking the crowd from theopposite side you want the crowd to go as well as anyavenues you do not want them to go.

ChannelizingThis technique is used when you want a rioting crowdto move to a location you have chosen. Do this bycutting off avenues of escape with RCAs, blockades,and forces, as well as pushing the crowd from behindby using advancing forces and RCAs.This technique can be resource intensive and cannotnormally be accomplished without an adequateamount of available manpower and logistics.

RESCUE MISSIONSFor this manual’s purposes, rescue missions are thetactical rescue of an encircled military force byanother force which has freedom of movement.An example would be a convoy that becomessurrounded and pinned down during movement.Unable to escape on its own, a rescue mission isrequired.RCAs can be used in two ways to support a rescuemission:

Supporting the concentration of combat power atthe breakout point, used by the rupture force andsupport force.

Supporting the delaying action of the rear guard.The best time to conduct your rescue operation is assoon as possible to the actual encirclement. Thislimits the amount of time an enemy has to organize.

Supporting theBreakout PointIn supporting the breakout point or breach, RCAsmay be used to cause confusion in the area where therescuing force can concentrate his combat power. TheRCAs are used by the rescuing force to break a holein the enemy’s lines, widen, and secure it.

CONVOYPROTECTION

The key to protecting a convoy is immediate actionwhen confronted with a situation which may endangeryour mission or the lives of your soldiers.In a situation where the road is being blocked and theconvoy is being physically attacked (rocks, vehiclesbeing shaken...) the use of RCAs can provide thenecessary force to break contact with the attackingcrowd. In breaking contact you should have yoursoldiers mask, deploy RCAs in your immediate areaand in the direction you plan to move. Then move outin that direction, continuing to use RCAs along yourpath until it is clear.

NUCLEAR WEAPONSSECURITY OPERATIONS

Of all the instances where you may be allowed to useRCAs, this is probably the most serious. In protectingand recovering nuclear weapons, the use of deadlyforce will most likely already be authorized.In protecting nuclear weapons, there must be clearlydefined levels of force you will use—each levelbuilding on the last. The use of RCAs will be the laststep in the escalation to the use of deadly force.The rules of engagement given to you in thesafeguarding and recovery of nuclear weapons willgive you the guidelines for RCA use. You mustunderstand that if you eventually must use lethalforce, the phase of using RCAs must end and lethalforce begin. There must be a clear distinctionbetween the two operations (using RCAs and usinglethal force), not only for legal purposes but for thepsychological purpose of showing to the aggressorthat the odds have changed. This in itself may causean aggressor, not truly committed to this venue, todiscontinue his actions.

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FM 3-11/MCRP 3-3.7.2

MILITARY OPERATIONSIN URBANIZED TERRAIN

Combat in cities imposes unique demands because ofurban setting. There are greater restrictions on thecommander in the application of force for politicaland military reasons.RCA use in cities can cause reduced effectivenessamong enemy soldiers if they remain in the affectedareas. Unprotected personnel, particularly those whodo not have protective masks readily available, willprobably move from cover or concealment—either tofind their masks or to escape from the effects of theRCAs. The probable confusion and shock reactionamong the enemy should also be detrimental to theenemy’s effectiveness in holding an urban area.RCAs may be preferable over conventional highexplosives during MOUT. They can provide excellentcapabilities for forcing hostile forces out ofbasements, sewers, and other subterranean systems.From historical accounts during Operation Hue City,missions were characterized by close, intensehouse-to-house fighting with engagements usuallyranging from 20 to 150 meters. The closeness of theenemy and bad weather limited air and artillerysupport.CS delivered by E8 launchers and grenades wasemployed extensively. When soldiers discovered theeffectiveness of the CS delivered by launchers, CSwas in high demand and had to be rationed. Assaultswere usually preceded by direct and indirect fire,followed by CS, then a short pause followed by aninfantry assault.Smoke and RCAs may be employed together toobscure the vision of enemy direct tire gunners andforward observers. Smoke can also be used to screenRCA delivery. When the artillery displaces topositions behind the built-up area, RCAs and smokecan be used to screen their withdrawal. From battlereports, CS in 105mm projectiles was used in acounter-rocket and counter-mortar role during thedefense of Saigon in March 1969.The enemy placed his firing positions as close aspossible to congested areas. Because conventionalmunitions would have caused significant propertydamage and could have inflicted casualties amongcivilians, CS was used successfully to suppress theenemy rocket and mortar fire.

BASE/PERIMETERDEFENSE

RCAs can provide valuable defensive fires whenintegrated into the perimeter defense of various typesof fixed installations, including communicationscenters, airfield complexes, firebases, and supportfacilities. RCAs provide a rapid response to enemyactivity when the exact locations of enemy or friendlypersonnel outside the defensive perimeter is notknown. When used in this role, the munitions shouldbe integrated into a deliberate defense plan.

TERRAINRESTRICTION

The greatest amount of agent CS used in Vietnamwas bulk CS1 and CS2, primarily for terrain andfortification restriction. Missions involving bulk CSwere not directly exploited by maneuver units,largely because these missions supplementedeconomy of force activities.The assessment of area restriction through use of CSwas determined by observation of enemy movementin the target area. Intelligence reports, includingairborne personnel detector readings and aerialphotographs from Vietnam, indicated the enemyceased to use lines of communication and othercontaminated terrain after bulk CS bombing missions.The enemy was sometimes observed using new trailsto bypass interdicted routes. He was observed onother deeper targets scraping trails with bulldozersand washing down others in an attempt to regainunrestricted trafficability. These efforts were largelysuccessful, but time consuming and costly,particularly when roads were covered by reconlooking for targets of opportunity.Occasionally, aerial reconnaissance of anCS-contaminated area revealed footprints and vehicletracks in the agent, indicating that the enemy hadtraversed the contamination with no apparent attemptto remove the CS. This indicates that whilecontamination can restrict the use of terrain, onlyphysical occupation by ground forces can deny itsuse. A determined enemy with masks would not bedeterred from penetrating an area covered by CS.However, enemy troops would probably not stay longin an area heavily covered by CS.CS2 can also be used to create contamination on thesurface of stagnant or slowly moving water (forexample, swamps, marshes, ponds). CS2 is highlyresistant to degradation in water and will float on

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FM 3-11/MCRP 3-3.7.2

these surfaces for days. If the surface of the water isdisturbed by foot or vehicle traffic, the CS2 powderwill become airborne, renewing the inhalationhazard. CS2 will eventually absorb water, lump up,and drift to the water’s edge, but it can restrict use ofwater for short operations.

EMPLOYINGSMALL AREAMUNITIONS

The following employment techniques are imperativefor proper tactical use of small area RCA munitionssuch as grenades, launchers, and backpack dispersers:

Sufficient munitions should be employed tocompletely cover the target area periphery, ensuringdenial of escape routes and thorough coverage of thetarget’s outer edges.

Sufficient munitions should be employed againstmoving targets to blanket the entire area of possiblemovement.

Use of reserve (additional) munitions should beplanned to allow for wind drift of the agent cloud and

to attack targets of opportunity.The agent cloud’s similarity to white smoke should

be exploited in helping to reduce target acquisition.The downwind incapacitation of enemy forces not

in the target area should be considered in planningRCA employment against separate targets within alarger enemy formation or position.

Timely exploitation of munitions effects by fire ormaneuver. (About 10 to 15 minutes after the agent isemployed, the physiological effects of CS no longerpreclude military tasks from being performed.)

EMPLOYINGDISPERSERS

Currently available dispersers are capable ofdelivering a high volume of CS or CR on crowds orterrain. They are designed to disperse agents from aposition close to the target. Security should always beprovided to the dispersing team.

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FM 3-11/MCRP 3-3.7.2

CHAPTER 8

Herbicides forCont ingency Use

Herbicides are chemical compounds used tokill/damage plants. They can be used to dry foliage,stimulate/inhibit plant growth, or sterilize soil.Herbicides are grouped on the basis of requiredselectivity and modes of action. Required selectivityis broken into selective and nonselective. Selectiveherbicides target specific plant types, whilenonselective herbicides affect all plant types. Modesof action are contact, translocated, soil sterilant, andpre-emergence. Contact herbicides require physicalcontact with the plant to be effective. A translocatedherbicide is absorbed through the plant walls (stalk orleaves) and spread throughout the plant. Soil sterilantherbicides mail soil incapable of supporting plant life,while pre-emergence herbicides affect plants thathave not germinated.The Armed Forces Pest Management Board hasapproved three herbicides for contingency use:glyphosate, bromacil, and paraquat.

GLYPHOSATEGlyphosate is the primary tactical herbicide that isused when feasible. Characteristics (see also Table8-l):

Relatively nonselective, translocated herbicide withlittle or no pre-emergence impact (crops can beplanted/seeded directly onto treated areas followingapplication)

Applied as spray; visible effects usually occurwithin 7 to 10 days; however, effects are delayed bycool or cloudy weather. Available as a 41% solutionthat is further diluted with water before use.

Applied through boom equipment in area spraymissions on a spray-to-wet method.

Controls vegetation for 2 to 4 weeks.Rainfall within 6 hours of application may wash it

away.Mechanical agitators may cause excessive foaming.Corrosive to iron and galvanized steel and should

not be stored for long periods in unlined containers.Flush sprayer parts with water after use.

Leaching is very low and has strong soilabsorption, but is subject to microbiologicaldecomposition.

Half life normally is 60 days or less.Toxicity:

Very low oral toxicity with no cases of poisoningbeing reported/observed. There is no specificantidote for oral ingestion.

Avoid contact with skin, eyes, or clothing. In caseof eye contact, flush with water for at least 15minutes.

No noticeable impact on wildlife/fish.

CONTENTSGlyphosate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-1Bromacil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2

Paraquat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2Availability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3Mixing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3Disposal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-3

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FM 3-11/MCRP 3-3.7.2

BROMACILThis herbicide is the second choice of use.Characteristics (see also Table 8-l):

Nonselective soil sterilant.Inhabits photosynthesis with effects appearing in

21-30 days; carried to root zone by moisture.Controls wide range of annuals, perennials, and

certain woody plant species for about 12 months.Most readily absorbed through root system, but is

also absorbed through leaves and stems; addingsurfactant to spray will enhance foliar activity.

Applied as spray on soil surface, preferably justbefore/during periods of active plant growth;available as 41% liquid solution that is further dilutedwith water before use.

May be applied using spray tanks, boom sprayers,hand-held or high-volume equipment.

Requires agitation only until mixed.Prolonged exposure to air can cause loss of water

volubility.May corrode aluminum spray equipment.Flush spray equipment with several changes of

water after use; clean glass with detergent followedby acetone rinse.

Less subject to soil absorption than many otherherbicides; is subject to microbiologicaldecomposition, but usually persists for more than onegrowing season.

Six months half-life.Toxicity:

Liquid form is harmful/fatal is swallowed.Eye, nose, throat, and skin irritant; wash

thoroughly after handling.In case of contact, flush skin with water, flush eyes

for 15 minutes, and get medical attention.Avoid breathing mist and avoid contact with

clothing.Do not reuse containers.Do not apply, drain, or flush spray equipment

around desirable vegetation; do not contaminate watersupplies or bury empty containers near water.

Open dumping is prohibited.Combustible; extinguish with chemical foam, dry

chemicals, or carbon dioxide; firefighters must useself-contained breathing apparatuses.

Slightly toxic to fish; no noticeable effects onwildlife.

PARAQUATA restricted-use herbicide used only in emergencieswhen benefits outweigh safety hazards.Characteristics (See also Table 8-l):

Nonselective, contact herbicide with somepre-emergence and translocated effects.

Only effective when applied to the aerial plant partsand action is light-dependent; in bright sunlight, firsteffects can be seen within an hour of treatment.However, plant death does occur slowly in the dark(most effective when applied in late after/earlyevening).

Tenaciously bound by soil components by means ofbase exchange; considered to be biologically inactivein most soils, therefore, leaves no residue whichwould affect new seedlings or established crops.

On broad leaf plants, 25 to 50% breakdown occursin about 3 weeks.

Readily absorbed by foliage and very resistant torain removal; therefore, is ideal when rapid effectsare needed or weather conditions are unfavorable forother herbicides.

Applied on leaves during ground/aerial large-spraysystem, hand-held, or high-volume equipment.Available as a 20.1% solution which is further dilutedwith water before use.

Non-ionic/cationic surfactant is recommended.Concentrated aqueous solutions are corrosive to

many metals, including mild steel, tinplate,galvanized iron, and aluminum. Best kept in originalcontainer if undiluted.

If diluted, is virtually noncorrosive to sprayequipment.

Slightly sensitive to ultraviolet light. Store inshady areas.Toxicity:

Highly toxic. One swallow can kill (symptomsinclude burning sensation in mouth followed byvomiting, diarrhea, and retching). However,inhalation or contact should cause no serious injuryexcept when grossly exposed (inhalation effects areheadache, nose bleeding, sore throat, and coughing.Systemic toxicity is not likely to occur frominhalation).

Eye contact causes irritation/inflammation in 12 to24 hours, but slow recovery usually follows whilerepeated/prolonged skin contact causeedema/erythema, cracking of fingernails/toenails.Immediately flush skin/eyes with water for 15minutes and get medical attention.

If swallowed, drink multiple glasses of water andinduce vomiting. Repeat until vomitus is clear. Getmedical attention. Reduce internal absorption byadministering bentonite or activated charcoal.

Serious poisoning may cause 2 to 3 weeks oftransient kidney failure/liver complications withprogressive pulmonary changes. Death is usually due

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MISPRINT

Table 8-1 is Missing

FM 3-11/MCRP 3-3.7.2

to pulmonary fibrosis.Sprayers/handlers should wear full protective

equipment (civilian or military).Concentrated paraquat is toxic to fish/wildlife;

relatively safe when grossly diluted.Do not reuse containers. Untreated spill material

can dry to form irritating dust. Mix spills withclay/clay soil and dispose as waste.

AVAILABILITYHerbicides are available through Defense General

Supply Center (contingency stocks are notmaintained).

Procured in small containers of concentrate forshipment ease (heavily diluted before use).

Normal mixtures are 5 gallon concentrate to 100gallons water, but varies according to selectedherbicide/application rate.

MIXINGWhen mixing water-soluble formulations, fill tankhalf full of water, add chemical slowly, and stir todissolve. If detergent is recommended, add 1/4 to1/2 pound of household detergent per 100 gallonsspray. For aquatic weed control, herbicideconcentration is often referred to as parts per millionppm), which is the number of parts (by volumeweight) of chemical in one million parts dilute(mg/L). Use mixed solution as soon as possible dueto strength loss/decomposition.

STORAGEStore liquid formulations on pallets or duckboards tokeep metal containers from rusting. Ensurecontainers are tightly closed (plug any air ventspunched/opened to facilitate pouring) to preventleaks.Even small amounts of water contamination inconcentrates/oil solutions can make them jell, causingcontainer deterioration. Chemicals may crystallizeout of solution below 32 degrees Fahrenheit. If thishappens, warm concentrate and roll/shake containers.Crystals should return to solution. At hightemperatures, chemicals may expand causing drumheads to bulge or leak, or at any temperatures above95 degrees Fahrenheit, the chemicals may deteriorate.High temperatures may reduce any emulsifier’seffectiveness and hasten container corrosion.

DISPOSALHerbicide waste, including contaminated soil/clothingand runoff, are mixed with absorbents (Fuller’s earth,clay, and so forth) and buried in appropriate,approved landfills (IAW Federal, state, and/or locallaws). Ensure containers are crushed/destroyed toprevent future use.

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FM 3-11/MCRP 3-3.7.2

CHAPTER 9

Herbicide

Delivery Systems

Systems available for the herbicide application can bebroken into two general categories — ground-basedand aerial spray systems.

GROUND-BASEDSPRAY SYSTEMS

Ground-based systems allow exact placement ofherbicides and minimize downwind drift. Groundsprayers are employed in areas occupied andcontrolled by friendly soldiers on terrain traversableby the spray apparatus. A 500-meter buffer distanceis recommended between the treated area anddesirable vegetation. Applications are not made neardesirable vegetation, in winds over 10 knots, or if itis about to rain. See Appendix D for a listing ofground sprayers.Several hand-operated pump and pressure sprayersare available to deliver limited amounts of herbicides.Hand sprayers are suitable for spot spraying and forapplying spray close to desirable vegetation. Sprayerscould include sprinkling cans, compressed airsprayers of 1 to 5 gallon capacity, and knapsacksprayers with hand-operated pumps. Compressed airand knapsack sprayers are well adapted for herbicideuse along highways, runways, or railroad tracks. Acone-type nozzle on a hand sprayer delivers 2.5 to 6gallons per hour at 20 to 30 pounds per square inch(psi). If devices are issued for insect controlpurposes, clean them thorougtly after each use sothat crops and vegetative camouflage are not damagedwhen they are used to spray insecticides. CONTENTSBoomless sprayers with nozzle clusters are welladapted for spraying roadsides and ditch banks, underutility lines, and along fence rows. They are less

expensive, simple to operate, and have less nozzletrouble than boom sprayers. They can pass betweentrees, maneuver close to obstacles, and are practicalfor rough terrain. They spray a broad swath of 20 to30 feet with large volumes that provide moderatelygood coverage. The conventional equipment consistsof a piston-type hydraulic sprayer equipped with3/4-inch high-pressure hose and a 15gallon-per-minute (gpm) pump for a 3/16-inch nozzleopening. Thirty-five to 60 gpm pumps are used for1/4 inch, 5/16 inch, and 15/16 inch nozzle openings.The equipment is mounted on wheeled vehicles andthe spray stream is greatly affected by the wind.Truck-mounted boom sprayers are adapted for largeareas where complete coverage is necessary, such asairfields, railyards, and depots. Arm booms areavailable for roadside and ditch spraying. Mountingthe nozzles off-center enables the operator to spray 15to 20 feet to one side. Use a larger boom mountedvertically to treat taller vegetation. Handguns at about100 psi can vary delivery from a broad mist to anarrow coarse stream from a stationary truck to reachinto tight spaces. Higher pressures will increase driftand reduce delivery effectiveness.Mist blowers are power-driven systems that dispersehighly concentrate sprays. The herbicide is carriedprincipally in an air stream instead of a liquid. Thesesprayer are free from boom and nozzle troubles andare very useful against weeds and woody plants in

Ground-Based Spray Systems.......................9-0Aerial Spray Systems.............................................9-1

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FM 3-11/MCRP 3-3.7.2

swamps and rocky areas along roadsides and underpower lines. Mist blowers use very little water andcover vegetation rapidly. They are used to treat areasinaccessible to hydraulic power equipment and costless. Mist blowers in sizes of 5 to 12 horse power(hp) are useful for brush treatment when drift is not aproblem. A 2-hp knapsack mist blower is effectiveagainst brush up to 30 feet tall for spot spraying andfor retreating.Any combination of pumps and spray nozzles may bemounted on any vehicle that has the capacity totransport them and the herbicide to the site ofapplication and may be used as ground fieldexpedients. Expedient systems are also used to sprayfuels to bum treated or untreated vegetation. Astandard highway watering truck can be adapted forherbicides by equipping it with a loading pump tocirculate the spray material and standard asphaltnozzles that deliver a fan spray. Power-drivendecontamination apparatuses (PDDA) areself-contained spray systems used to applydecontaminants. The M12A1 and the M17lightweight decontamination system (LDS) are bothadaptable for vegetation control. Tank capacitiesrange from 200 to 1,250 gallons. The M12A1 alsohas a 35 gpm pump that can be remoted out from theprime mover to pump herbicides to pressures up to800 psi. Delivery is made through two hoses withadjustable nozzles. The PDDA can be used to controlvegetated minefield, defensive perimeters, airfields,and roadsides. Applications are made at volumes of50 to 100 gallons per acre (as required) to completelywet the foliage. After using PDDAs for herbicideoperations, clean them thoroughly to prevent damageto seals, hoses, and pumps. Once PDDAs have beenused to deliver herbicides, they are no longer safe fortransporting drinking or shower water. The PDDA istagged with a warning and the warning is entered inthe logbook.

AERIAL SPRAYSYSTEMS

Aerial spray offers rapid treatment of large areas forquick results at a lower cost. It also allows treatmentof inaccessible areas and areas under enemy control.The obvious advantages of aerial spray systems areoffset to some degree by the hazards to the pilot andthe damage from the drift. A helicopter needs norunway and can fly better at low altitudes and in lowvisibility than fixed-wing aircraft, but at greater riskto the crew. For helicopter and small fixed-wing

aircraft, area coverage is less than 5,000 acres persortie. To achieve predictable herbicide deposit,aircraft should fly into the wind under conditions ascalm and stable as possible. See Appendix D for apartial listing of spray systems.The only large fixed-wing aerial spray capability inDOD is maintained by the USAF in the Air ForceReserve. Specially modified C-130H Aircraft areequipped to use the Modular Aerial Spray System(MASS). The MASS can carry 2,000 gallons ofspray liquid and can be configured to use wing and/orfuselage booms. The MASS has the capability ofapplying liquid from one-quarter ounce to 30gallons/acre. Droplet sizes sprayed can vary from aslittle as 20 microns for ultra-low volume missions toas much as 3,000 microns for ultra-high volumemissions. For aerial spraying, the C-130H isnormally flown 200 knots constant ground speed100-150 feet above the ground.The US Army Pesticide Dispersal Unit (PDU) is amulti-capability unit that can be slung from the cargohook of any helicopter using a six-foot nylon strap. Itcan be used to deliver liquids or solids and isconfigured in the high-volume mode using a 33.75-foot boom with up to 34 nozzles. The PDU operatesin the ultra low-volume mode using a six-foot boomwith two rotary atomizers and in the solid mode usinga rotary disc slinger. The unit is self-powered by a 10hp engine and is remote controlled by helicoptercrew. The PDU has a liquid payload of 150 gallonsand flow rates range from 0.48 gpm to 52.4 gpm.Since the PDU is an external load, contamination,jettison, and refilling problems are solved. The unitattaches in 15 seconds to all UH-1, UH-60, OH-58,and CH-47 helicopters. It is issued to preventivemedicine units for pest control and can be used forherbicide operations along lines of communication,restrictive terrain, and in heavy vegetated areas toenhance intelligence collection and security.A number of field expedient devices have been usedin helicopters to spray small areas such as fields offire around defensive perimeters, helicopter landingzones, and small crop destruction missions. Thesedevices range from a 55-gallon drum equipped with aspray bar for temporary mounting across the skids ofa UH-1 helicopter to a 400-gallon metal tank or500-gallon collapsible fuel bladder with power-drivenfuel transfer pumps and improvised booms for use onCH-47s.

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FM 3-11/MCRP 3-3.7.2

CHAPTER 10

Tact ica l Employment

of Herbicides

Upon proper approval authority, possible herbicideemployment techniques may accomplish the following:

Kill the vegetation bordering roads, paths, trails,railroads and waterways, thereby reducing possiblesites from which friendly forces may be ambushed.

Kill the vegetation surrounding vulnerable basecamps, communications complexes, pipelines, supplypoints, assault strips, landing zones, and air defensesites. Use of herbicides would enhance security ofthese sites.

Control vegetation in fields of fire and avenues ofapproach to create kill lanes which channelize enemyapproaches and withdrawals. Properly integratedwith terrain, obstacles, and fire support barrier plans,herbicides can enhance the lethality of direct andindirect fire weapons.

Destroy large areas of dense vegetation for majorconstruction projects or for health and sanitationprograms. Herbicides may be used to mark areasthrough which roads are to be built. Herbicides maybe used on enemy held terrain to support retaliatoryoperations by defoliating large area targets to improveintelligence gathering. Increased visibility, verticaland horizontal, in densely vegetated areas shouldmake observation of enemy movements easier.Herbicide operation could also potentially restrictenemy use of ambush sites and infiltration routes.Defoliation operations also support killing vegetationon friendly objectives and suspected enemy positions.Restricting the concealment opportunities oftenincreased the chances of locating targets. Exposure ofenemy supply depots, base camps, and otheroperations will make him more vulnerable to airattack.

Destroying enemy food supplies and cash cropswhen such objectives constitute proper militaryobjectives is another option for use of herbicides.Herbicides reduce the enemy’s ability to maintain anarmy in the field when food crops fail to mature andcash crops, such as drugs, cannot be sold to purchasearms and munitions.Presidential approval is always required to employherbicides in war, but host nation agreements mayalso require allied approval. Local civilian officialsshould be kept abreast of the effects of herbicideoperations. Civil affairs provisions are made toprovide food or money to families whose crops areaccidentally damaged by herbicides operations.Defoliation of heavily vegetated areas by use ofherbicides is the primary means of obtaining visualobservation of enemy forces, facilities, roads,ambush sites, infiltration routes, and other enemylocations from the air, ground, or water. The use ofherbicides for defoliation—

Enhances security. Defoliation of vegetationbordering and overhanging roads, path, trails,waterways, and railroads enhances security aroundfriendly base camps, airfields, ammunition dumps,ports, along railroads, waterways and other locationsby providing defense fields of fire and reducingpossible ambush sites.

Improve military intelligence. Defoliation oflarge-area targets improves military intelligence forplan and operations by increasing vertical andhorizontal visibility in heavily forested or densejungle areas. Defoliation also provides data forcorrecting existing maps for preparing new ones.

Reduces enemy resistance. In defoliated areas,

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FM 3-11/MCRP 3-3.7.2

soldiers will meet less enemy resistance than in areasthat have not been defoliated, and fewer soldiers willbe required for operations. Exposure of the enemy’ssupply depots, base camps, and other locations willmake him more vulnerable to air strikes and resultantdamage, harassment, and threat of attack may causehim to move out of an area.

Facilitates movement of military supplies.

Defoliation along highways, railroads, and mainshipping channels will facilitate movement of suppliesand decrease the number of convoy guards required.Herbicides can also be used to reduce the enemy’sfood and industrial crops. This could cause him todivert combat manpower to production of food,depend on local food resources, become morestationary because of the necessity to cultivate hiddencrops, and reduce production of war munitions.

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FM 3-11/MCRP 3-3.7.2

APPENDIX A

Demolition Skills

for Constructing

Flame Field Expedients

This appendix provides the basic demolition skillsrequired to construct flame field expedients. Forfurther information on explosives and demolitions,See FM 5-250, Explosives and Demolitions, Jun 92.

DEMOLITIONACCESSORIES

Available demolition accessories include time blastingfuses, detonating cord, blasting caps, a cap crimper, ablasting cap test set, two blasting machines, adetonating cord clip, a weatherproof fuse lighter, al-gallon mine, a field incendiary burster, thickeningcompound, and demolition materials. This appendixdescribes these items, their packaging, and anyprecautions.

M700 TimeBlasting FuseA time blasting fuse sends a flame from a match origniter to a nonelectric blasting cap or other explosivecharge and provides a time delay. The delay allowssoldiers to move to a safe distance before theexplosion.The M700 time fuse (Figure A-1) is a dark greencord, 0.2 inches in diameter, with a plastic cover.Depending on the time of manufacture, the cover maybe smooth with single bands around the outside atl-foot or 18-inch intervals and double bands at 5-footor 90-inch intervals. The bands provide easymeasuring. The burning rate is approximately 40seconds per foot.

Time fuse M700 is packed in 50-foot coils, two coilsper package, five packages per sealed container, andeight containers (4,000 feet) per wooden box.

CAUTIONYou must always test the burning rate in thesame manner as for a safety fuse. If burnrate is faster than 30 seconds per foot, donot use.

CONTENTSDemolition Accessories . . . . . . . . . . . . . . . . . . . . . . . A-0Misfires . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-6Firing Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-8Testing Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . A-11Priming Procedures . . . . . . . . . . . . . . . . . . . . . . . . A-12

A-O

FM 3-11/MCRP 3-3.7.2

APPENDIX B

Riot Control Agent

Munitions

and Delivery Systems

RCA MUNITIONS SYSTEMSRCA munitions come in various forms such asbombs, spray tanks, artillery shells, mortar shells,rockets, grenades, and cartridges. The followingsystems are issuable RCA munitions currentlyavailable in the US Army, Navy, or Air Forceinventory. Area coverages cited in munitionsdescriptions are areas where concentrations of at least5-10 mg/m3 occur (ICT50).

HAND GRENADESRCA grenades are classified either as burning type orbursting types. They are used against enemypersonnel or material at relatively short ranges.Burning type grenades are usually fitted with ignitingfuses which function with a 1-to-5 second delay.These grenades are usually thrown by hand orprojected by a grenade launcher to the upwind side ofthe target. Upon ignition, the filler is ignited andsufficient pressure is created to uncover the gas portsand allow the RCA to escape. Burning type grenadeswill cause fires if employed around flammablematerial. Bursting type grenades are fused with delayfuses (1 to 2 seconds) which contain a low explosivedetonator. The detonator ruptures the grenade bodyand dispenses the filler. These grenade are throwninto the air so that the burst occurs several feet overthe target. Generally in a wind of 5 knots, theburning type grenade covers an area of about 10meters wide to a downwind distance of 25 meters.Under the same conditions, the bursting-type grenadecan cover an area about 5 meters in width to adownwind distance up to 15 meters.

M7A3The M7A3 (Figure B-1), NSN 1330-00-965-0802, isa burning type grenade filled with approximately 270grams (9.5 ounces) of pyrotechnic CS mix. In thatmix there is about 116g (4.1 oz.) of pelletized CS.Housed in a metal cylindrical container, the M7A3has a l-to-2 second delay fuse and a 15-to-35-secondbum time. The throwing range of this grenade isabout 35 meters. Area coverage: At a windspeed of4 knots, the M7A3 grenade will produce an effectiveconcentration over about 60m2 in an elliptical patternapproximately 18 by 4 meters maximum crosswindwidth. At higher windspeeds, the pattern will belonger and narrower.

M47The M47 grenade (Figure B-2), NSN1330-00-477-6704, is a special purpose, burning-typemunitions used for control of rioters andcounter-insurgents. It is filled with a CS pyrotechnicmix weighing about 410 grams (14. 4 ounces) thatcontains approximately 120 grams of CS. The M47

CONTENTSRCA Munitions Systems . . . . . . . . . . . . . . . . . . . . . . B-1Hand Grenades . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1Cartridges . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-2Morter and Artillery CS Cartridges . . . . . . . .. B-3Launchers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-4Dispersers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-5Field Expedients . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-8

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FM 3-11/MCRP 3-3.7.2

consists of a rubber body assembly with a fuse delayof about 2 to 3 seconds before ignition. Discharge ofthe CS results in a random "skittering" of thegrenade. The speed of the discharge through the portsprevents target personnel from picking up the grenadeand throwing it back. The manner in which thisgrenade explodes also eliminates fragmentation sideeffects and minimizes fire hazards. The grenadebums from 8 to 20 seconds. Hand-throwing range ofthe grenade is about 35 to 45 meters. Area coverage:approximately 150 square meters. (Coverage mayvary with field conditions and burn time.)

M54The M54 (Figure B-3) consists of an M7A3 grenademodified to accept an 8-to-12-second delay fuse. Thismodification permits hand-drop of the grenades from

low performance aircraft at altitudes up to 1,500 feet,providing additional safety to aircrews. Whendropped from this altitude, it begins to emit a cloudof CS at 50 to 100 feet. Like the M7A3, the M54weighs about 1 pound and is filled with 115 g (4.1ounces) of pelletized CS in a pyrotechnic mix. Itburns for about 15 to 35 seconds. Area coverage:Same as the M7A3.

CARTRIDGESThe cartridges described below are projectiles filledwith RCA that can be launched from rifle-equippedgrenade launchers, and allows deposition of RCAs ontargets with increased accuracy and at ranges beyondgrenade throwing distances. Due to the projectile’shigh velocity, it will penetrate barriers of wood andglass. Exercise caution when using these projectilesin training and riot control situations. They can causeserious injury or death at close range. Thesecartridges are especially effective when fired intoenclosed areas such as buildings, houses, bunkers,caves.

M651The M651 (Figure B-4), NSN 1310-00-849-2083, is a40mm, 11.3-cm-long aluminum cartridge filled withabout 53 grams (2 ounces) of CS pyrotechnic mixcontaining approximately 21 grams of CS. It isequipped with a point detonating fuse (M581) and canbe fired from the M79 and M203 grenade launchers.Maximum accuracy is obtained at ranges up to 200

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FM 3-11/MCRP 3-3.7.2

meters. Area targets may be engaged up to 400meters. This projectile can penetrate window glass orup to 3/4 inch-thick pine at 200 meters and stillrelease CS. Following impact, a cloud of CS isemitted for approximately 25 seconds. Areacoverage: approximately 120 square meters. Twocartridges effectively placed will incapacitate 95percent of unmasked personnel in an enclosure of 15by 30 by 20 feet within 60 seconds after functioning.

M674The M674 (Figure B-5), NSN 1310-00-935-9229,also known as the Handy Andy is an aluminum tubethat contains a rubber projectile filled with about 90grams of CS pyrotechnic mix (about 36-45 gramsCS). It can be fired from the M79 grenade launcher,from the AN-M8 pyrotechnic pistol, or thrown byhand. It has a 2-to-7 second delay before the CSpyrotechnic mix ignites, and a range of about 70meters. Unreliable ranges and lack of precision makethe M674 a much less effective munition than theM651. If the M651 is not available, the M674 can beused on targets similar to those attacked with the

M651. Area coverage: approximately 120 squaremeters.

MORTAR AND ARTILLERYCS CARTRIDGES

M630The M630 (Figure B-6) is fired from an M304.2-inch mortar and ejects four l-pound CS-filledpyrotechnic mix canisters either on impact or at apreset altitude of 120 meters above ground level. Atotal of 1.6 pounds of CS can be dispersed with thiscartridge. The M630 cartridge consists of the M633projectile, M2A2 ignition cartridge with an M36A1propelling charge, and the M548 variable time fuse.The fuse functions at either a preset time or uponimpact to ignite the mix which will burn for about 60seconds. It has a maximum range of 5,650 meters.The M630 is used for direct support of maneuverelements on known or suspected targets to harass orconfuse the enemy so that his ability to fire andmaneuver is degraded and his vulnerability to friendlyfires is increased. The M630 will penetrate a triplecanopy jungle and is effective against enemy nightattacks. It is also used for counter-battery andcounter-mortar fire. It can be used in both anoffensive and defensive role.

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FM 3-11/MCRP 3-3.7.2

M629The M629 (Figure B-7) is a semi-fixed, base ejectinground designed for use in all 105mm howitzers. Themain components of the round are the M632projectile containing four M8 pyrotechnic filledcanisters (each containing about 375 grams of mix), acartridge case, and an M548 variable time fuse. Atotal of 1.3 pounds of CS is contained in thecartridge. The fuse functions either at a set time orupon impact to ignite the expelling charge. Thepyrotechnic mix burns for about 60 seconds.The 105mm cartridge can be used to route the enemyfrom cover, for close support, and is especiallyeffective in search and clear operations. It is also usedfor harassing and interdiction and counter-battery andcounter-mortar fire.

LAUNCHERS

E8 Launcher and35mm Cartridge:Tactical CSThe E8 launcher (Figure B-8) is a man-portable (34pounds), ground employed, expendable munition thatcan be fired either electrically or manually. The E8launcher is a short-range weapon that can be used toplace quantities of CS on point and small area targetsin conjunction with assault by ground forces. Thelauncher may be emplaced, sighted, and fired by oneman. The E8 consists of a launcher module and afiring platform with a carrying harness and backpack

attached. The launcher module has 16 tubes, eachcontaining four E23, 35mm CS cartridges, for a totalof 64 cartridges. Each cartridge is filled with 38grams of a CS pyrotechnic mix of which 15 gramsare pure CS. The total fill (CS pyrotechnic mix) is.97 kg (2.1 pounds). The expelling charge propels thecartridge from the launcher and ignites a5-to-6-second delay fuse in the cartridge. The CSpyrotechnic mix burns from 10 to 15 seconds. Thecartridges contain different amounts of propellantcharge to give a wider dispersion in the target area.The elliptical pattern created from the cartridges firedfrom the E8 launcher is relatively independent ofmeteorological conditions. However, the period ofeffective agent concentration on a target area isdependent upon existing meteorological conditions.The range of this launcher is from point blank to 250meters based on adjustable firing notch position (sixpositions available).Area coverage:At 40° elevation, 40m wide by125-175m deep. Use: Its use has been quite effectivein perimeter and convoy security, counter-ambush,combat assault. The E8 has also been used inambushes and to break contact.

M 2 3 4The M234, NSN 1010431-014-6506, system consistsof the M234 64mm projectile launcher, the M74364mm kinetic energy projectile, the M742 64mmkinetic energy projectile filled with CS1, and theM755 blank cartridge.The M234 64mm projectile launcher is a launcherfrom which 64mm projectiles can be fired from anM16A1 rifle. It is aluminum-tasted, cylindrical, andweights approximately 2.5 pounds. A nut and latchmechanism holds the launcher onto the barrel of the

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FM 3-11/MCRP 3-3.7.2

M16A1 from which the M742 or M743 projectilesare fired.The M743 64mm kinetic energy projectile, (FigureB-9) also called the Sting Rag (ring airfoil grenade),was designed to inflict a painful blow upon impactingon a target individual. It consists of a rubber-likeplastic material, 64mm in diameter, molded in theform of a ring airfoil. The airfoil shape of thespinning projectile provides life during the flight,enabling it to overcome gravity and result in arelatively straight trajectory. Upon target impact, thecircumferential breakband fractures, allowing theprojectile to deflect and spread the impact load,inflicting pain but minimizing the possibility ofcausing serious injury. It can be aimed accurately atindividuals up to 40 meters away and up to 60 metersfor groups of personnel. It has a maximum range of100 meters. This projectile is called a kinetic energyprojectile since it has nearly the same energy impactat effective ranges as it has at launch, due to its airfoilshape that results in a low draft profile.The M742 64mm kinetic energy projectile filled withCS1, also called the Soft Rag, is designed to deliversmall quantities of CS1 to target personnel at rangesidentical to that of the M743. The projectile is filledwith approximately 2 grams of powdered CS1 whichis equally distributed in 18 pockets or compartmentsaround the circumference. The breakband is designedto rupture on impact and release the CS1 in a 3 to 5feet diameter cloud. This item was designed for usein controlling individuals and crowds during civildisturbances. It has some applications for specialoperating forces and point-type targets whencasualties are not desired.

The M755 blank cartridge provides the propellingforce for the projectile and is specifically designed tolaunch it from the M16A1 rifle. Ball ammunitionmust not be issued to soldiers using the M234.

DISPERSERSDispersers provide another means for disseminatingRCAs in sufficient quantities to provide effectivecoverage in a variety of situations and conditions.The dispersers vary from small hand-held units toaircraft-mounted spray tanks. Generally, dispersersare employed when a larger amount of agent or agreater area coverage is required. Care must be takenby the operators that intolerable concentrations ofRCAs are not released since the larger dispersers canrelease large amounts in a very short time. Thedispersers are designed to disseminate RCAs byaerosolizing them. However, dispersion of liquidRCAs increases operational flexibility since solutionscan be disseminated with more control to a target areathan powdered aerosol clouds. Aerosol clouds aremore affected by wind conditions than liquids.

M32The M32 disperser (Figure B-10) is a hand-heldpressurized can capable of dispensing CSX solution.The M32 was designed to apprehend, control, orsubdue unruly persons, trespassers, and rioters byspraying them with CSX. The M32 disperser consistsof an aluminum cylindrical container (6.4-inch lengthby 1.5-inch diameter) filled with approximately 60grams (2 ounces) of CSX pressurized with nitrogengas. The CSX solution is discharged as a jet streamthrough the nozzle by the trigger on top of thedisperser. When the pressure on the trigger isreleased, the valve closes and the jet stream is shut

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FM 3-11/MCRP 3-3.7.2

off. The range of the jet stream is 10 to 12 feet. Itwill operate continuously for 14 to 20 seconds orapproximately 20 to 25 times in short, one-secondbursts.

M36The M36 disperser (Figure B-11), NSN1365-00-283-9046, is quite similar to the M32 in thatit also is a hand-held, pressurized containerdispensing the RCA solution, CR (0.1 percentsolution in propylene glycol and water). It wasdesigned to apprehend, control, or subdue unrulypersons, trespassers, and rioters. The M36 disperseris an aluminum cylinder (6.0-inch length by 1.5-inchdiameter) containing approximately 68 grams of CRsolution. The cylinder is pressurized with nitrogengas which causes the CR to discharge through thenozzle in a jet stream upon pressing the actuator. Ithas a range of 10 to 12 feet. Maintaining fingerpressure on the acutator, the operator can dispensethe CR solution in a continuous stream lasting 14 to24 seconds. The operator can also apply 15 to 25bursts lasting about 1 second each. The M32 andM36 have limited tactical uses, primarily in enemyprisoners of war (EPW) control, specialized defensiveroles and special operating forces when casualties arenot desired.Both the M32 and M36 are small enough to becarried and operated with one hand. To use thesedispersers effectively, the soldier holds the can

upright, aims at the target person’s face, and pressesthe actuator or trigger in 1 second bursts. The burstsare more effective than the continuous spray since theoperator can adjust aim with a minimum of RCAwaste.

M33/M33A1The M33 and M33A1 (Figure B-12), NSN (M33A1)1040-00-148-9824, are lightweight, RCA dispersersthat disseminate pressurized riot control agents. TheM33A1 looks and functions like the M33. Thedifference is in the units' capabilities. The M33A1disperser’s modular design allows quick replacementof empty agent and pressure containers. The M33A1can disperse CS1 or CR solution; however, the M33cannot disperse solutions. The M33A1 is replacingthe M33 on a one-for-one basis as the M33s wear out.The dispersers consists of a frame and harnessassembly, an agent container assembly, and a gun andhose assembly. The disperser weights 22 poundsempty. A long check valve assembly and multijetspray unit are issued with the M33A1 disperser forspraying solutions. The M33 does not have theseitems. A short check valve assembly, an agentagitator, and a single jet spray are used to dispersepowders. An extra agent container and compressedgas cylinder are provided to disperse two agent fillsper mission. The compressed gas cylinder of the airpressure assembly is pressurized with compressed air.The operator opens a valve on the air pressure

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FM 3-11/MCRP 3-3.7.2

assembly and pulls the trigger on the gun assembly.Pressurized air from the air pressure assembly forcesthe RCA from the agent container, through the hoseand gun assembly and out the spray unit. The agentcontainer on the M33A1 unit can hold 48 pounds ofCR solution, and can fire to a maximum range of 40feet for a duration of 60 seconds. Both the M33A1and the M33 agent containers can hold 30 pounds ofCS1 and can fire to a maximum range of 40 feet instill air for a duration of 40 seconds. For trainingpurposes, talc can be used in place of CS1. Thedissemination characteristics of talc with the M33A1and M33 are very similar to that of CS1.The M33 and M33A1 are best used in small unitoperations against small area and point targets. Theycan be very effective in reducing resistance fromfortifications, tunnels, and urban complexes. Theoptimum distance for firing the disperser to producethe greatest effect depends on the wind speed and theoperator’s freedom of movement across the front ofthe target area. As wind speed increases, dilution ofthe powder becomes more rapid. To minimize thiseffect, the distance between the target area and theoperator must be reduced so that an effectiveconcentration can be placed on the target. Closeobservation must be made of the agent’s dispersalpattern and effect on the target.

M3The M3 disperser (Figure B-13), NSN1040-00-711-8296, is used to spray CS1 or CS2 froma backpacked container toward or upon targets. Thedisperser consists of an M2A1 and contains twoaluminum agent tanks, a pressure tank and valveassembly, and a carrier section with a frame andharness. The dispersal of agent works in the same

manner as the M33 and M33A1 with the agent beingforced out of the agent tank through the gun groupfrom the pressurized air tank. The disperser iscapable of disseminating approximately 8 pounds ofCS1 or CS2 in one continuous burst of 19 seconds, orin intermittent bursts for 30 seconds. The agent isprojected about 10 meters (40 feet) before it billowsout into a cloud. The M3 weighs 47 pounds emptyand 55 pounds when filled with agent.The M3 can be used effectively against small areatargets and poorly defined point targets. With anoptimum wind speed of 3 to 5 knots, the M3 cancover an area of 2,300 to 3,800 square meters.

M5The M5 helicopter-or vehicle-mounted RCA disperser(Figure B-14), NSN 1040-00-805-3019, is used todisperse CS1 or CS2 into the atmosphere from eithera low-flying cargo helicopter or a moving groundvehicle. The disperser consists of an agent containertank, a pressure group with two air cylinders, atubular aluminum frame, an M9 gun with a 12-foothose for vehicle mounting, a 12-foot discharge hosefor helicopter mounting, and various controls andinstruments. The RCA is dispersed by forcing thepowdered agent from the agent container into theatmosphere through the discharge hose withpressurized air from the air tanks. The agent tankholds approximately 50 pounds of CS1 or CS2 andweights 223 pounds when filled with agent. The M5disperser has a range of about 12 meters in still air(with gun unit) and 15 to 46 meters from a helicopterat an elevation of 75 to 100 feet. The duration of fireper fill is two minutes with the M9 gun and 20seconds with the helicopter delivery hose. The M5 isused against area targets and large urban complexes

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FM 3-11/MCRP 3-3.7.2

for immediate effects. It can also be used to enhancesecurity by contaminating perimeters.When a helicopter is used, the agent can be releasedfrom either a hovering position above or on thewindward side of the target area or along a line aboveor on the windward side of the target. When mountedon a vehicle and employed against open-area targets,the disperser is operated from positions slightly infront of target areas or formations. Operatingdispersers from a helicopter while it is hovering orflying at low speeds may contaminate the helicopter,the crew, and the occupants due to circulation of theagent in the rotor wash. Therefore, the pilot and thecopilot should wear a protective mask.Large concentrations can build up very quickly whenthe wind is calm and when the target area is partiallyenclosed by buildings or fortifications. The operatormust remember that 1 pound of CS is the equivalentof pound burning-type (M7A3) CS grenades and that50 pounds of CS can be released in two minutes orless with the M5.

FIELD EXPEDIENTSThe field expedient devices included in this sectionwere developed in Vietnam to compensate forshortages of standard munitions. Any device whichprovides a container for the RCA and a means ofreleasing the RCA at the desired time and place willwork.The 1st Infantry Division built the "Big Red 1 Alpha"(BRIA) device consisting of 38 combined grenades asa substitute for canister clusters which were in shortsupply. Area coverage approximates that of the M 158cluster cannister. Nineteen M7A3 CS grenades areplaced on a precut plywood base. Nylon line (500pound test) is wrapped twice around the 19 CSgrenades. Both wraps of nylon are threaded throughan M22 cutter power-activated (10-second delay).After a square knot has been tied and the two looseends tied into three half-hitch knots, a piece of woodis placed between the two wraps of nylon line andtwisted to tighten the line around the CS grenades.The grenade safety pins are then pulled. After

completion of two modules, a sandwich is made byplacing (in this order): one board, one CS module,one board, one CS module, and one board. A ripcordis fastened to the two reefing line cutters on the sideof the BRIA and connected to a D-ring on the floor ofa helicopter. To activate the BRIA, pull the threesafety pins, activate the cutter on top of the BRIA,wait two to four seconds, and then push the munitionout of the helicopter. Optimum release height for theBRIA is about 1,900 feet AGL.A "Box Full of Grenades" (BFOG) was developed bythe 4th Infantry Division along similar lines with 25M7A3 grenades in a plywood box that was alsodropped by helicopter. It was also developed tosupplement the short supply of canister clustermunitions.In other efforts, can bombs were made by cuttingbulk CS cans in half and taping them back together.The cans were dropped from helicopters and the tapewould split on impact, resulting a crude but effectivedissemination of CS.The bunker use restriction bomb (BURB) was a fieldexpedient device developed in Vietnam to meet arequirement for a small munition which could becarried by foot soldiers and used to contaminate abunker complex with CS2. The original BURBconsisted of a shipping container from a 2.75-inchrocket warhead filled with approximately 1 pound ofCS2 and fitted with a timed-delay nonelectric blastingcap detonator. This BURB was deemed too bulky forthe troops. Another BURB was made using the layersof the free-fall water bag (an 8-layer plastic bag usedto drop water from helicopters). Half of a one-layerbag was filled with 1 pound of CS2. This methodproved unsatisfactory because of difficulties in fillingand knotting the bags. A request made for aCS2-filled munition resulted in the development of analuminum foil cloth-type bag sealed in the middle,Some users in the field cut the BURB in half alongthe heat sealed portion and used the half BURB.About 2,300 ready-made BURBs were shipped toVietnam.

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FM 3-11/MCRP 3-3.7.2

APPENDIX C

S a f e t y

FIRE ANDBURN SAFETY

Unlike raw gasoline, thickened flame fuel is notextremely volatile. However, the residual burningtime of thickened fuel is greatly increased when thefuel gels. Thickened fuel will stick to an object andcontinue to burn. Soldiers must understand theexisting dangers of FFE fuel and react quickly toextinguish fires on clothing, skin, or equipment. Youcannot stamp out globs or puddles of burning fuelwith a boot. You must extinguish these fires bycovering them with dirt or sand, or by discharging aCO2 fire extinguisher at the base of the flame.

PersonnelIf burning fuel splashes on a person, he or she mustimmediately fall to the ground and attempt to smotherthe flame. Prevent oxygen from feeding the flame bysmothering it. When fuel is burning both on the frontand back sides of a person, alternately smother theflames on both sides. Done quickly, only minimalinjury may occur. Panicking and running can onlyresult in extensive and severe burns. Soldiers notaffected by the flame must react quickly to help theirbuddies in this life-threatening situation. Duringtraining, keep canvas, containers of sand, and C02

fire extinguishers readily available. Under combatconditions, use battledress uniform or shelter halvesto smother the flame.

EquipmentUse standard Army C02 fire extinguishers to put outFFE fires on equipment. Expedient methods include

the use of water, sand, dirt, and other nonflammabledry substances.

EXPLOSIVESSAFETY

The safe handling, transport, and storage of explosiveitems must conform to AR 385-63, Policies andProcedures for Firing Ammunition for Training,Target Practice, and Combat, and those localregulations governing individual installations.Personnel handling or employing explosives, blastingcaps, or demolitions must strictly follow safety rules.They also must follow post regulations and local unitSOPs.

Blast EffectsGenerally, the greatest danger to personnel is frommissiles thrown by the explosion. Personnel withminimum protection generally will not be in dangerfrom blast effects. For further information refer toAR 385-63.

Missile HazardsExplosives can propel lethal missiles great distances.The distance an explosion-propelled missile travels inthe air depends primarily on the relationship betweenits weight, shape, density, initial angle of projection,and initial speed. Under normal conditions the missile

CONTENTSFire and Burn Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1Explosives Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-1

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FM 3-11/MCRP 3-3.7.2

hazard from steel cutting charges extends a greaterdistance than the hazard from cratering, quarrying, orsurface charges of bare explosives.

Safe DistancesTable C-1 gives distances at which personnel in theopen are relatively safe from missiles created by barecharges placed in or on the ground, regardless of typeor condition of the soil (see AR 385-63 and FM5-250).

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FM 3-11/MCRP 3-3.7.2

APPENDIX D

Herbicide

S p r a y S y s t e m s

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FM 3-11/MCRP 3-3.7.2

G L O S S A R Y

A binding post — spring-loaded receptacle on aabsorption — the process of taking up or soaking up, blasting machine designed to secure firing wiresfor example, a sponge taking up water; taking orreceiving through molecular or chemical action orchangeactuator handle — the handle of a blasting machinethat must be turned or depressed to activate theblasting machineAFPMB — Armed Forces Pest Management BoardAGL — above ground levelaging period — the time required for newly mixedflame fuel to change from an applesauce appearanceto a smooth syrupy gelagitate — to rapidly stir or briskly move flame fuelto and fro during the mixing processammunition lot — a supply of one specific type ofammunition manufactured under the samespecificationsAR — Army regulationASP — ammunition supply pointampere — a measure of electrical current

BBFOG — "box full of grenades"blast site — a particular location designated for thedetonation of an explosive chargeblasting cap — a small tubular device containingexplosive mixtures used to detonate an explosivecharge

BRIA — "Big Red 1 Alpha"brisance — the shattering power of high explosivesbranch line — a length of detonating cord that isjoined to another length of detonating cordbubbling — the mechanical mixing of flame fuelusing a source of compressed air to agitate the fuel

cCINC — Commander-in-Chiefcanalizing — to drive an enemy force into apreplanned kill zonecircuit — the complete path of an electrical current,shared equally by two or more electrical blasting capscontact device — an exploding device that can beinitiated through the use of trip wirecontinuity check — the test of an electrical firingcircuitcrimp — to join a nonelectric blasting cap with timefuse by crushing the base of the cap around the fusewith an M2 cap crimper

DDA — Department of the Armydebris — solid objects blown into the air as a resultof an explosiondecanting — method of separating water fromMOGAS before mixing flame fuel

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FM 3-11/MCRP 3-3.7.2

DODAC — Department of Defense AmmunitionCodeDODIC — Department of Defense IdentificationCodedual priming — method of preparing an explosivecharge for detonation using more than one blasting cap

EEO — Executive OrderEPA — Environmental Protection AgencyEPW — enemy prisoners of war

FF — FahrenheitFFE — flame field expedientfiring system — electrical or nonelectrical method ofpriming an explosive charge with blasting capsPLOT — forward line of own troopsFM — field manualfougasse — a land mine in which the charge isoverlaid by stones or other missiles so placed as to behurled in the desired direction An explodingdirectional FFEfragmentation — the shattering of a metal FFEcontainer upon detonation

Ggage — a measurement of the thickness of the steelused in the manufacture of 55-gallon drumsgirth-hitch — a double half-hitch with an additionalturngpm — gallons per minute

Hhasty emplacement — a flame device (exploding orilluminating), constructed quickly with availableitems, and designed to hinder enemy offensiveoperationshasty whip — as shown in FM 5-250, an alternatemethod for priming a block of explosive withdetonating cordhp — horsepower

Iilluminator — an expedient flame device used toprovide light on the battlefieldimpulse — a sudden involuntarily actioninduce current — to produce an electrical charge ina neighboring charge without having physical contactwith that chargeingenuity — cleverness or skillfulnessinsoluble — cannot be dissolvedIPSS — Improved Pesticide Spray System

Llead wire — wire from an electrical blasting capleap frog — method of connecting blasting caps todetonate several explosive chargesLIC — low-intensity conflictLDS — lightweight decontamination system

Mmain-line — a single line of detonating cord to whichother branch lines of detonating cord are connectedMEA — monoethanolaminemisfire — a primed explosive charge that fails todetonateMOGAS — motor gasolineMOUT — military operations onMRE — meals, ready-to-eatMSD — minimum safe distance

urban terrain

mylar film — a durable wrapping material thatcovers composition C4 explosives

Nnapalm — a highly flammable jellylike substanceused as flame fuelNBC — nuclear, biological, and/or chemicalNEO — Noncombatants Evacuation OperationsNSN — national stock number

PPDDA — power-driven decontaminating apparatusPDU — pesticide dispersal unit

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FM 3-11/MCRP 3-3.7.2

PETN — explosive component contained indetonating cordppm — parts per millionprime — to prepare an explosive charge fordetonationpriming adapter — a small plastic device used tocombine blasting caps and explosivespropellant charge container — an artillery powdercharge containerpsi — pounds per square inchpusher plate — a wooden object used to propel FFEfuel from a directional FFEpsychological impact (of FFE) — the human fear oftire

RRCA — riot control agentsRDX — commonly called cyclonite, a highlysensitive explosive and one of the most powerfulmilitary explosives It is used alone as the base chargein military blasting caps Its principal use is incomposite explosives such as composition A, B, andC explosivesresidual — fires that remain after the detonation ofan exploding FFEresistance — the opposition offered by a substance tothe passage through it of a steady electric currentRF — radio frequencyring main — a ring of detonating cord to whichbranch lines are connected to ensure a positivedetonationrule-of-thumb — field formula used in the mixing offlame fuelRVN — Republic of Vietnam

Sscrew picket — a metal stake used to secureconcertina wireshard — a sharp, twisted piece of metal resultingfrom the detonation of an FFE device having a metalcontainer

shunt — the twisting together of electrical firingwires to close a circuitsiphoning — the removal of water from MOGASbefore mixing flame fuelsite — to locate or place an FFE device to support acombat operationSOP — standing operating proceduresplit cone — the small cone shaped holder in an M60fuze igniter that grips and holds time fuzespoon handle — the handle of an M49 trip flarestatic electricity — the electricity contained orproduced by charged bodies such as that found inatmospheric disturbances

Ttamping — packing mud around a charge to keep theexplosive force confinedTEA — triethylaluminum, a thickened pyrophoricagent used in the M74 rocket A substance similar towhite phosphorus (WP) because it burnsspontaneously when exposed to airthickened fuel — a syrupy, sticky liquid composedof MOGAS and M4 thickening compound used inFFE devicesTM — technical manualTNT — trinitrotolueneTOF — trioctyl phosphate

Uunthickened fuel — a 60:40 mixture of MOGAS andoil used in FFE devices

VV-trench — a shallow trench in the ground the sizeof a 55-gallon drum dug at an angle with the backdeeper than the frontvolatility — rapid evaporation of a flammable liquid,changing into vapor, as in FFE fuel

WWP — white phosphorus

shipping plug — a small plastic plug that protects thetime fuze receptacle in an M60 fuze igniter

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FM 3-11/MCRP 3-3.7.2

REFERENCES

Sources UsedThese are the sources quoted or paraphrased in this publication.

Army PublicationsFM 5-250, Explosives and Demolitions, Jun 1992AR 55-355, Defense Traffic Management Regulation, Jul 1986AR 75-1, Malfuction Involving Ammunition and Explosives, Aug 1993AR 310-50, Authorized Abbreviations and Brevity Codes, Nov 1985.AR 350-41, Training in Units, Mar 1993.AR 385-63, Policies and Procedures for Firing Ammunition for Training, Target Practice, and Combat, Oct 1983FM 3-4, NBC Protection w/C2, May 1992.FM 3-5, NBC Decontamination, Nov 1993.FM 3-100, Chemical Operation, Principles, and Fundamental, 8 May 1996.FM 3-101, Chemical Staffs and Units, Nov 1993.FM 5-20, Camouflage, May 1968FM 5-250, Explosives and Demolitions, 15 June 1992.FM 19-15, Civil Disturbances, Nov 1985.FM 21-11, First Aid for Soldiers with Changes 1 and 2, Oct 1988.FM 101-5-1, Operational Terms and Symbols, Oct 1985.

TC 23-2, 66mm Rocket Launcher M202A1 w/C2, 25 Apr 1980

TM 3-1055-456-12, Operator’s & Organizational Maintenance Manual (Launcher, Rocket: 60mm), Mar 1975TM 5-629, Weed Control and Plant Growth Regulation, 24 May 1989.TM 9-1010-22410, Operator’s Manual for Launcher, Projectile, 64mm: Riot Control, M234, Oct 1980.TM 9-1300-200, Ammunition, General, Oct 1969TM 9-1300-206, Ammunition and Explosives Standard, Aug 1973

References-1

FM 3-11/MCRP 3-3.7.2

TM 9-1300-214, Military Explosives, Sep 1984TM 9-1375-200, Demolition Materials, Jan 1964TM 43-0001-29, Army Ammunition Data Sheets for Grenades, Apr 1994.TM 43-0001-26-2, Army Equipment Data Sheets for Chemical Weapons and Munitions, Apr 1982.

TB 3-1310-255-10, Launcher and 35mm Cartridges: Tactical CS, 16-tube, E8, Aug 1966.

STP 21-1-SMCT, Soldier’s Manual of Common Tasks, SLl, Oct 1994.STP 21-24-SMCT, Soldier's Manual of Common Tasks, SL2-4, Oct 1992.STP 21-II-MQS, Military Qualification Standards II, Manual of Common Tasks, Jan 1991.

OtherERDEC-SP-030, Chemical Agents, Weapons and Defense material Type Classified, Adopted, or Obsoleted, April1995.Technical Report 118, Defoliation Studies: III. Screening of Defoliants, Herbicides, and Desiccants, US ArmyBiological Defense Research center, Fort Detrick, MD, May 1971.Deseret Test Center, Study of Riot Control Agents - Phase III, Aug 1971.

Documents NeededThese documents must be available to the intended users of this publication.

DA Form 2028. Recommended Changes to Publications and Blank Forms, Feb 1974.

Readings RecommendedThese readings contain relevant supplemental information.

FM 3-100, NBC Defense, Chemical Warfare, Smoke and Flame Operations, May 1991.FM 100-5, Operations, Jun 1993.

References-2

FM 3-11

Index-1

FM 3-11

Index-2

FM 3-11MCWP 3-3.7.2

19 AUGUST 1996

By Order of the Secretary of the Army:

DENNIS J. REIMERGeneral, United States Army

Chief of StaffOfficial:

Administrative Assistant to theSecretary of the Army

02190

Paul K. Van RiperLieutenant General, US Marine Corps

Commanding GeneralMarine Corps Combat envelopment Command

Quantico, Virginia

DISTRIBUTION:

Active Army, USAR, and ARNG: To be distributed in accordance with DA Form12-11E, requirements for FM 3-11, Flame, Riot Control Agents and Herbicide Operations(Qty rqr block no. 0153) *U.S. Government Printing Official 1996- 728-027/40124