summary of methods used to manufacture...
TRANSCRIPT
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Summary of Methods used to yManufacture PMCs
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Preliminary Manufacturing ConsiderationsConsiderations• To maximize the stiffness, strength, and overall
“quality” of the composite material/part thequality of the composite material/part, the manufacturer must:
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Preliminary Manufacturing ConsiderationsConsiderations• To maximize the stiffness, strength, and overall
“quality” of the composite material/part thequality of the composite material/part, the manufacturer must:– Maintain fiber volume fraction at ~65% (optimum fiber
volume fraction depends on details)volume fraction depends on details)
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Preliminary Manufacturing ConsiderationsConsiderations• To maximize the stiffness, strength, and overall
“quality” of the composite material/part thequality of the composite material/part, the manufacturer must:– Maintain fiber volume fraction at ~65% (optimum fiber
volume fraction depends on details)volume fraction depends on details)– Achieve uniform fiber volume fraction throughout part
(e.g., avoid resin-rich or resin-starved regions)
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Preliminary Manufacturing ConsiderationsConsiderations• To maximize the stiffness, strength, and overall
“quality” of the composite material/part thequality of the composite material/part, the manufacturer must:– Maintain fiber volume fraction at ~65% (optimum fiber
volume fraction depends on details)volume fraction depends on details)– Achieve uniform fiber volume fraction throughout part
(e.g., avoid resin-rich or resin-starved regions)Eliminate void content (e g eliminate air bubbles)– Eliminate void content (e.g., eliminate air bubbles)
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Preliminary Manufacturing ConsiderationsConsiderations• To maximize the stiffness, strength, and overall
“quality” of the composite material/part thequality of the composite material/part, the manufacturer must:– Maintain fiber volume fraction at ~65% (optimum fiber
volume fraction depends on details)volume fraction depends on details)– Achieve uniform fiber volume fraction throughout part
(e.g., avoid resin-rich or resin-starved regions)Eliminate void content (e g eliminate air bubbles)– Eliminate void content (e.g., eliminate air bubbles)
– Insure good adhesive bonding between fiber/matrix, between plies, and from part-to-part
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Preliminary Manufacturing ConsiderationsConsiderations• To maximize the stiffness, strength, and overall
“quality” of the composite material/part thequality of the composite material/part, the manufacturer must:– Maintain fiber volume fraction at ~65% (optimum fiber
volume fraction depends on details)volume fraction depends on details)– Achieve uniform fiber volume fraction throughout part
(e.g., avoid resin-rich or resin-starved regions)Eliminate void content (e g eliminate air bubbles)– Eliminate void content (e.g., eliminate air bubbles)
– Insure good adhesive bonding between fiber/matrix, between plies, and from part-to-partEli i t ll t i t– Eliminate all contaminants
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Preliminary Manufacturing ConsiderationsConsiderations• To maximize the stiffness, strength, and overall
“quality” of the composite material/part thequality of the composite material/part, the manufacturer must:– Maintain fiber volume fraction at ~65% (optimum fiber
volume fraction depends on details)volume fraction depends on details)– Achieve uniform fiber volume fraction throughout part
(e.g., avoid resin-rich or resin-starved regions)Eliminate void content (e g eliminate air bubbles)– Eliminate void content (e.g., eliminate air bubbles)
– Insure good adhesive bonding between fiber/matrix, between plies, and from part-to-partEli i t ll t i t– Eliminate all contaminants
• Steps taken to achieve these goals typically i i l d f iincrease material and manufacturing costs…
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Preliminary Manufacturing ConsiderationsConsiderations
• Composite manufacturing process(es) selected for use p g p ( )often depends on the premium the customer is willing to pay for reduced variability (and therefore for lighter weight and/or improved properties)weight and/or improved properties)
Reinell Runabout Americas Cup Racing Yacht
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Preliminary Manufacturing ConsiderationConsideration
A basic decision…does the manufacturer of a composite part:composite part:
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Preliminary Manufacturing ConsiderationConsideration
A basic decision…does the manufacturer of a composite part:composite part:
• ‘Preimpregnate’ the fiber with resin, forming an intermediate product called ‘pre-preg’. Composite part then produced in a subsequent manufacturing processthen produced in a subsequent manufacturing process using pre-preg as the ‘raw’ material…known as a ‘dry’ process. In general: the use of prepreg reduces material variability but increases costsvariability but increases costs
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Preliminary Manufacturing ConsiderationConsideration
A basic decision…does the manufacturer of a composite part:composite part:
• ‘Preimpregnate’ the fiber with resin, forming an intermediate product called ‘pre-preg’. Composite part then produced in a subsequent manufacturing processthen produced in a subsequent manufacturing process using pre-preg as the ‘raw’ material…known as a ‘dry’ process. In general: the use of prepreg reduces material variability but increases costsvariability but increases costs
….OR….
• Combine fiber and liquid resin matrix while simultaneously producing the (final) composite part….known as ‘wet’ manufacturing processes. In general: wet processes
lt i i d t i l i bilit b t l ti lresult in increased material variability but are relatively inexpensive
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Preliminary Manufacturing ConsiderationConsideration
• Another basic decision is the physical form of theAnother basic decision is the physical form of the fiber reinforcement…fibers are available as:
• Discontinuous (chopped) fibersR i l• Roving spools
• Mat fabrics• Unidirectional plies (layers)
W b id d f b i• Woven or braided fabrics
• Reinforcements in any of these forms (or some y (combination thereof) can be used in either pre-preg
(“dry”) or wet manufacturing processes.
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Summary of Manufacturing MethodsMethodsFollowing discussion divided into two categories
• Prepreg based processes (“dry”)• Non-prepreg based processes (“wet”)
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Prepreg ManufacturingThermoset (Epoxy) Resin MixThermoset (Epoxy) Resin Mix
InhibitorSl d R ti Additi
+
•Slows down Reactionat Low Temp. •Provides Longer Outtime•Heat Deactivated
EpoxyBase Resin
Accelerator(Promoter)• Heat Activated
Additives• Tougheners• Fire Retardant• Smoke Inhibitor
Hardener ResinHardener(Curing agent)
Resin Mix “A” staged resin
Reduce Viscosityfor Ease of Flow Into Fiber Bed
Solvent Hot MeltSolventImpregnation
Process
Hot MeltImpregnation
Process
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Prepreg ManufacturingSolvent Impregnation
PrepregWorkDry Fabric Roll B Staging
Solvent Impregnation
p gtake upWork
compactionrolls
B &
Tower or horizontaloven
(O )
Bag &Freeze
Low Viscosity
(Or)
B-StagedFabric Prepregy
Resin/SolventSolutionFiber Creel
p g
B- StagedUD TapePrepreg
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Prepreg ManufacturingFreezer StorageFreezer Storage
The ME Department walk-in freezer is used to store prepregs, thin-film adhesives, etc, and maintains a temperature of -18ºC (0ºF)
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Prepreg ManufacturingHot Melt Impregnation
Resin film(on/off line) Paper takeup
PFiber Creel
Hot Melt Impregnation
( )
Hot compaction
p pPrepregtakeup
Fiber Creel
Bag &rollers
Hot plate Chill plate Slitter(or)
Freeze
B- StagedUD TapePrepreg
Resin film(on/off line)
Dry Fabric Roll
Prepreg
B-StagedFabric Prepreg
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Hot Melt Fiber Impregnation
Matrix resin film
Heat & Pressure
Dry Form of Fiber (Fabric or Tow)
Heated PlateMatrix resin film
Prepreg
Chill PlateMatrix resin film
ResinResin Viscosity
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Prepreg ManufacturingFreezer StorageFreezer Storage
The ME Department walk-in freezer is used to store prepregs, thin-film adhesives, etc, and maintains a temperature of -18ºC (0ºF)
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Prepreg ManufacturingCreel Setup – Unidirectional TapeCreel Setup Unidirectional Tape
To Prepreg Line
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Prepreg Material FormsUnidirectionalUnidirectional
Slit TapeUD Tape• AFP (Automated Fiber
Placement) equipment• Automated equipment• Higher laydown rates Placement) equipment
• Low laydown rates• Fiber orientation very tailorable
• Higher laydown rates• Fiber orientation tailorable• Good material usage
• Excellent material usage (Buy to Fly Ratio)
• Better for Compound contour
• Limited contour use
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Prepreg Material FormsWoven FabricWoven Fabric
90 (Fill)
0 (Warp)
Woven fabric• Drapability good• Fiber orientation less tailorable (0/90, +/-45)• Poor material usage (buy-to-fly ratio)g ( y y )• Mostly used for hand lay up of H/C sandwich
structures
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General Prepreg-Based Manufacturing FlowManufacturing Flow
Cold storage (0º F)In Sealed Bag Cutting Plies
At Room Temp. Panel layupp Panel layupCompositePrepreg plies
Adhesive
H/C coreTool prep and bagp p g
AutoclaveCuring
Trimming, inspection, and assembly
g
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Creating the Laminate Stack
• Hand layup processes– Plies cut from parent prepreg role to desired shape either– Plies cut from parent prepreg role to desired shape, either
• Manually or• With NC-controlled ultrasonic knife (minimizes edge fraying)
I h d l li ll b id d f b i b t– In hand-layup plies are usually woven or braided fabrics, but can be unidirectional tape
– Hand layup often involves ply kits:• Plies cut from prepreg• Stack sequentially in intended laminate• Sealed in air-tight bag and returned to freezer to retain tack• Efficient production flow
• Automated (computer-controlled) layup processes– Mostly involve UD tape but can also be used with fabricMostly involve UD tape, but can also be used with fabric– NC controlled cutting during automated layup of each course directly on tool– Sometimes combined with hand layup
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Hand Layup
• Hand layup implies – Hand placement of
precut plies– Very flexible– Low capital investment– Labor intensive– Can involved safetyCan involved safety
issues/repetitive trauma• Applications
U d t d– Used on most secondary structure in aerospace compositesN t d f l– Not used for very large parts
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Hand LayupProducing “precut plies” from parent rollProducing precut plies from parent roll
• Pre-preg can be to desired shape by hand (i.e., using a razor blade utility knife etc) butrazor blade, utility knife, etc), but
• Various types of computer-controlled cutters available and are far more precise and convenient
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Automated (Computer-Controlled) Layup ProcessesControlled) Layup Processes
• Three major categories in chronological order ofThree major categories, in chronological order of development:– NC Filament winding (bodies of revolution)– Automated Tape Laying machines
• Flat tape laying machines• Contoured Tape Laying MachineContoured Tape Laying Machine
– Automated Fiber Placement (AFP) machines (a hybrid of filament winding and automated tape laying machines)
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Filament Winding• Used for decades (computer-controlled winders developed in 70’s)• High lay-down rates (400 lbs/hr)High lay down rates (400 lbs/hr)• Either pre-preg or wet winding• Bodies of revolution only (can’t wind concave surface)
http://compositetechnology.blogspot.com
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Automated Tape Laying Machines(http://www.automateddynamics.com/gallery/)( p y g y )
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Automated Tape Laying Machines
C dCan produce parts with modest
tcurvatures
ATLP machinesATLP machines available that dispense 1”, 3”, 6”, or 12” UD pre pregor 12 UD pre-preg
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Automated Fiber Placement Machines(http://www.automateddynamics.com/gallery/)(http://www.automateddynamics.com/gallery/)
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Automated Fiber Placement Machines(http://www electroimpact com/)(http://www.electroimpact.com/)
Boeing 787 fuselage barrel sections produced using an
d fib lautomated fiber placement machine designed/built by Electroimpact (Mukilteo, WA) p ( , )
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General Prepreg-Based Manufacturing FlowManufacturing Flow
Cold storage (0º F)In Sealed Bag Cutting Plies
At Room Temp. Panel layupp Panel layupCompositePrepreg plies
Adhesive
H/C coreTool prep and bagp p g
AutoclaveCuring
Trimming, inspection, and assembly
g
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Vacuum Bagging
Indexing Holes (2)Release Coating/Film
Net Trim LineIndexing Holes (2)
Generic Composite Tool
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Vacuum Bagging
Composite
gg g
Vacuum
Surface Breather Optional
Caul PlateVacuum Bag
Laminate
ReleaseFilm
EdgeBreather
EdgeEdge Sealant
Tool
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General Prepreg-Based Manufacturing FlowManufacturing Flow
Cold storage (0º F)In Sealed Bag Cutting Plies
At Room Temp. Panel layupp Panel layupCompositePrepreg plies
Adhesive
H/C coreTool prep and bagp p g
AutoclaveCuring
Trimming, inspection, and assembly
g
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Autoclave Cure
• An autoclave is a heated l th t llpressure vessel that allows
– Vacuum to be drawn in interior region(s)
– Heatup and cooldown rates to be precisely controlled
– Internal pressure applied using p pp ginert gas (usually N2, rarely air)
• Autoclave sizes vary widelyMost structures produced• Most structures produced using pre-preg are cured using an autoclave(some exceptions)
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Typical Autoclave Features(up to 700F and 300 psi)(up to 700F and 300 psi)
Fixed TCOR
Heater
Fixed TC
Higher Temp.
Lower Temp.
DOO Heater
Part TC Part TC
• Thermocouples: • Electric gas or steam heatThermocouples:– Fixed TC (permanent,
controls power input)– Part TCs (disposable, monitor
Electric, gas, or steam heat• Chilled water (or occasionally oil)
cooling system• Internal fan to circulate pressurizingPart TCs (disposable, monitor
local heat-up and cool-down rates
• Internal fan to circulate pressurizing gas (air, N2, or CO2) and minimize thermal gradients
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Autoclave Cure Cycle
90 psig
y
Pressure
400 FCure Temp.
Cure Time
300 F
p
H t
100 F
200 F Heat
100 F
Time
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Summary of Manufacturing MethodsMethodsFollowing discussion divided into two categories
• Prepreg based processes (“dry”)• Non-prepreg based processes (“wet”)
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Wet Hand LayupLowest Cost/Highest VariabilityLowest Cost/Highest Variability
1. Hand place dry fibers1. Hand place dry fibers(usually glass or carbon fabric)
2. Apply low viscosity resin(pour, brush or spray)
3. Wet out/remove air(squeegee, rolleror vacuum bag)
4. Cure:R t / bRoom temp w/o vacuum bag,Room temp w/vacuum, Vacuum bag w/oven Vacuum bag w/autoclave
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Chopped Fiber Spray-Up
R iRovingC tt T t bl Air ExhaustR iRovingC tt T t bl Air ExhaustRoving Cutter Turntable Air Exhaust
FlexibleHose
Roving Cutter Turntable Air Exhaust
FlexibleHose
ExhaustFan
ExhaustFanFan
Blower
Fan
Blower
PreformScreenBinder
Spray
PreformScreenBinder
Spray
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Chopped Fiber Spray-Up
• Can produce complex shapes, and medium-to-large parts• Continuous fiber fed, chopped (1-3“), and combined/sprayed with
catalyzed resin• Laminate densified and air removed manually (rollers, squeegies) or y ( , q g )
with vacuum bag
44
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Chopped Fiber Spray-Up
• A highly automated (computer-controlled) version of fiber spray-up, called the Programmable Powdered Preform Process (P4) is used tocalled the Programmable Powdered Preform Process (P4), is used to produce lightweight automobile and truck parts
Applicator P4 gun developed by P4-SRIM truck bed and tailgate onApplicator P4 gun developed by Aplicator System AB (Sweden)
P4-SRIM truck bed and tailgate on 2001 Chevy Silverado is 50 lb and 15 lbf lighter, respectively, than steel counterparts
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Resin Infusionwith low temperature cure resinswith low temperature cure resins
www.airtech.lu/site/medias/_pdf/france/procedeEN.pdf
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Resin Infusionwith low temperature cure resinswith low temperature cure resins
Clamped-off
Line to VacuumPump
pResin FillLineVacuum
Line
Vacuum/Resin Accumulator
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Resin Infusionavoids the need for very large autoclavesavoids the need for very large autoclaves
http://www.tygavac.co.uk/markets/wind-o.uk/markets/windenergy.html
(www.rnp.org/Projects/stateline.html)
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Compression Moldingp g
Placement of Charge
Cure UnderHeat and Pressure
(or consolidate if TP)
Mold Closure
Demold
Mold Closure
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Compression Moldingwidely used to produce auto/truck partswidely used to produce auto/truck parts
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Compression Moldingprototype HexMC aircraft window framesprototype HexMC aircraft window frames
Rule Die Kit and StageLay-in L-shaped Front
and Back Rib Plies De-mold Net Sh d P tShaped Part
Prep and Heat Mold Lay-in Flange Plies
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Injection Molding
Feed H tCylinder forScrew-Ram
FeedHopper
Heaters
Nozzle
BarrelBarrel
Stationary Platen
MoldMoveable Platen
Tie RodsClampingCylinder
HydraulicCylinder
ClampingUnit
InjectionUnit
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Injection Moldingj g
• Base and frame of• Base and frame of K2 inline skates produced using p ginjection molding and short fiber glass/PP and glass/nylon compositescomposites
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Pultrusion• High-volume process• Constant cross-section• Can use either resin bath or &
pre-preg • Can use either thermoset or
thermoplastic
Prefrom Die
Di
p
CreelResinBath
Die
Pull Rollers
Saw
FinishedPart
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PultrusionPultrusion
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Hybrid manufacturing processesy g p
• K2 downhill skis and snowboards produced using– Wood core (fir, aspen, bamboo…)– Several plies, including
• Short glass fiber mat• Stitched unidirectional glass and carbon• Stitched unidirectional glass and carbon
plies• Continuous glass fiber triaxial overbraid
W t l ith i i– Wet layup epoxy with amine curing agent
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Overbraiding of wood core and short-fiber glass matshort fiber glass mat
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Overbraiding of wood core and short-fiber glass matshort fiber glass mat
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Unidirectional Glass FabricUnidirectional Glass Fabric
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Preparing for Impregnation w/Wet Epoxy Resinw/Wet Epoxy Resin
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Compression and Heat Used to Consolidate and Cure CompositeConsolidate and Cure Composite
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Finished ProductFinished Product