understanding neutron radiography reading iv all
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Understanding Neutron RadiographyReading IV-Level1,2&3•Exercise UpdatedMy ASNT Level III, Pre-Exam Preparatory Self Study Notes 7 & 23 July 2015
Charlie Chong/ Fion Zhang
Charlie Chong/ Fion Zhang
Neutron Source-Reactor
http://opasnajazona.blogspot.com/2012/02/visiting-nuclear-research-reactor.html
Charlie Chong/ Fion Zhang
Neutron Source-Reactor
http://opasnajazona.blogspot.com/2012/02/visiting-nuclear-research-reactor.html
Charlie Chong/ Fion Zhang
Neutron Source-Reactor
http://opasnajazona.blogspot.com/2012/02/visiting-nuclear-research-reactor.htmlhttp://radiationcenter.oregonstate.edu/content/oregon-state-triga-reactor-0?quicktabs_1=2
Charlie C
hong/ Fion Zhang
Neutron Source- Reactor
http://opasnajazona.blogspot.com/2012/02/visiting-nuclear-research-reactor.htm
l
Charlie Chong/ Fion Zhang
Neutron moderator
http://opasnajazona.blogspot.com/2012/02/visiting-nuclear-research-reactor.html
■ https://www.youtube.com/embed/kss2aaQKLSo?feature=player_detailpage
Charlie Chong/ Fion Zhang
Nuclear Reactor - Understanding how it works | Physics Elearning
http://opasnajazona.blogspot.com/2012/02/visiting-nuclear-research-reactor.html
■ https://www.youtube.com/watch?v=1U6Nzcv9Vws
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ASNT Certification GuideNDT Level III / PdM Level IIINR - Neutron Radiographic TestingLength: 4 hours Questions: 135
1. Principles/Theory• Nature of penetrating radiation• Interaction between penetrating radiation and matter• Neutron radiography imaging• Radiometry
2. Equipment/Materials• Sources of neutrons• Radiation detectors• Non-imaging devices
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• Electron emission radiography• Micro-radiography• Laminography (tomography)• Control of diffraction effects• Panoramic exposures• Gaging• Real time imaging• Image analysis techniques
3. Techniques/Calibrations• Blocking and filtering• Multifilm technique• Enlargement and projection• Stereoradiography• Triangulation methods• Autoradiography• Flash Radiography• In-motion radiography• Fluoroscopy
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4. Interpretation/Evaluation• Image-object relationships• Material considerations• Codes, standards, and specifications
5. Procedures• Imaging considerations• Film processing• Viewing of radiographs• Judging radiographic quality
6. Safety and Health• Exposure hazards• Methods of controlling radiation exposure• Operation and emergency procedures
Reference Catalog NumberNDT Handbook, Third Edition: Volume 4,Radiographic Testing 144ASM Handbook Vol. 17, NDE and QC 105
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Image Converters■ Indirect (transfer) technique, dysprosium (Indium, Gold?)
● thermal neutrons radiography - indium, and dysprosium converters ● epithermal neutrons radiography - indium and gold converters
■ Direct technique, indium (?) and gadolinium■ Track-etch technique, boron and lithium
Remembering & pass your
exams!
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Neutron Cross Section of the elements
■ http://periodictable.com/Properties/A/NeutronCrossSection.html
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Neutron Cross Section of the elements
■ http://www.ncnr.nist.gov/resources/n-lengths/
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FIG. X1.1 Approximate Mass Attenuation Coefficients as a Function of Atomic Number
Atomic Number
Designation: E 748 – 02
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Screen Types-11. Transfer screen-indium or dysprosium, In, Dy.2. Thermal neutron filter using Cadmium for epithermal neutron radiography,
Cd.3. Converter screen uses gadolinium which emit beta particles, Gd.4. the beta particles are caught by a fluorescing zinc sulfide material5. Scintillator screen: Zinc sulfide, Lithium carbonate, plastid scintillator6. Neutron Accelerator Target material: Beryllium, Be.7. Boron used for neutron shields.8. Transfer screen-indium or dysprosium, In, Dy.9. Thermal neutron filter using Cadmium for epithermal neutron radiography,
Cd.
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Screen Types-28. Converter screen uses gadolinium which emit beta particles (conversion
electron or β particle?), Gd.9. the beta particles are caught by a fluorescing zinc sulfide material10. Scintillator screen: Zinc sulfide, Lithium carbonate, plastid scintillator
(cellulose nitrate film)11. Neutron Accelerator Target material: Beryllium, Be.12. Beam filter, Beryllium thermalized thermal neutron further and pass only
cold neutron.13. Cadmium remove thermal & cold neutrons and pass epithermal neutrons.14. Fast neutron direct radiography used Tantalum or transfer radiography
with Holmium.15. Gadolinium Gd, conversion screens emit- (1) gamma rays and (2)
conversion electronn16. Dysprosium (161
66Dy) conversion screens emit: (1) high-energy betas β, (2) low-energy gammas γ, and (3) internal-conversion electrons e.
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TABLE 7.4. The characteristics of some possible neutron radiography converter materials
Practical.NR Table 7.4
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Reading IVContent Reading One: ASNTNRTMQ123 Reading Two: Reading Three: Reading Four:
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Q1. Neutron penetration is greatest in which of the following materials?a. hydrogenous materialb. waterc. leadd. boron carbide
Q2. In general, by increasing the neutron energy from a neutron radiographic source:a. greater neutron penetration is achievedb. greater neutron radiographic contrast can be obtainedc. radiographic exposure time can be reducedd. resolution can be increased
Q3. The time required for one-half of the atoms in a particular sample of radioactive material to disintegrate is called:a. the inverse square lawb. a curiec. a half-lifed. the exposure time
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Q4. Generally, the attenuation of neutrons by a given material is:a. reported to the Atomic Energy Commissionb. greater for fast neutrons than thermal neutronsc. an indication of the quality of the X-radiographic techniqued. appreciably greater for thermal and epithermal neutrons than for fast neutrons
Q5. The mass absorption coefficients for thermal neutrons when plotted against regularly increasing atomic numbers of periodic elements presents a:a. blurred pictureb. regularly increasing picturec. random pictured. dark picture
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Q6. Many of the absorption differences between neutrons and X-rays indicate clearly that the two techniques:a. cause radiation problemsb. complement each otherc. increase exposure speedd. fog radiographic film
Q7. The neutron cross section is the term normally used to denote:a. the danger in handling radioactive materialb. the absorbing power of a material for neutronsc. the atomic number of neutron reactor materiald. radiation detection equipment
Q8. The sharpness of the outline in the image of the radiograph is a measure of:a. subject contrastb. radiographic definitionc. radiographic contrastd. film contrast
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Q9. The highest quality direct neutron radiographs obtainable today use:a. imaging screens using lithium-zinc sulfide as the imaging materialsb. high-speed radiographic filmsc. dysprosium as an imaging screend. gadolinium as an imaging screen
Q10. When doing neutron radiography on radioactive materials, the materials are best handled:a. directly by personnel equipped with special protective clothingb. by remote handling equipmentc. directly by personnel with special protective clothing except when radiographs are being maded. by the same methods used for nonradioactive materials
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Q11. Gadolinium conversion screens are usually mounted in rigid holders called: (direct radiography?)a. film racksb. cassettesc. emulsifiersd. diaphragms
Q12. The best high-intensity source of thermal neutrons is:a. a Cf-252 sourceb. an acceleratorc. a nuclear reactord. a Cf-252 source plus a multiplier
Q13. Scattered radiation caused by any material, such as a wall or floor, on the film side of the specimen is referred to as:a. primary scatteringb. undercutc. reflected scatteringd. back-scattered radiation
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Q14. What has the highest thermal neutron absorption cross section?a. goldb. Indiumc. gadoliniumd. dysprosium
Q15. Conversion screens are used in neutron radiography:a. to convert neutron energy into ionizing radiationb. to increase the exposure timec. both a and b are reasons for using conversion screensd. neither a nor b is a reason for using conversion screens
Q16. A curie is the equivalent of:a. 0.001 mCib. 1000 mCic. 1000 MCid. 100 MCi
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The neutrons transmitted through a radioactive specimen will strike a metal detection foil such as indium, dysprosium or gold, rather than a converter screen with film.
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FIG. X1.1 Approximate Mass Attenuation Coefficients as a Function of Atomic Number
Atomic Number
Designation: E 748 – 02
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Q17. Short wavelength electromagnetic radiation produced during the disintegration of nuclei of radioactive substances is called:a. X-radiationb. gamma radiationc. scatter radiationd. back-scattered radiation
Q18. A photographic record produced by the passage of neutrons through a specimen onto a film is called:a. a fluoroscopic imageb. a radiographc. an isotopic reproductiond. none of the above
Q19. Possible reactions that can occur when a fast neutron strikes a nucleus are:a. scattering and radiative captureb. microshrinkage and static charges caused by frictionc. sudden temperature change and film contrastd. uniform thickness and filtered radiation
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Q20. For inspection of radioactive objects or those that emit gamma radiation when bombarded with neutrons, a preferable detection method is the:a. direct exposure methodb. transfer methodc. isotopic reproduction methodd. electrostatic-belt generator method
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Q21. Materials that are exposed to thermal neutron beams:a. must not be handled for at least 3 minutes after exposure has ceasedb. must be stored in a lead-lined roomc. may be radioactive after exposure to neutrons has ceasedd. should be monitored by means of a neutron counter
Q22. Hydrogenous material has a:a. high macroscopic scattering cross section (?)b. high absorption cross sectionc. high microscopic absorption cross sectiond. low microscopic scattering cross section
Q23. The penetrating ability of a thermal neutron beam is governed by:a. attenuation characteristics of the material being penetratedb. timec. source-to-film distance I=Ioe-μnt
d. all of the above
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Q24. A graph showing the relationship between film optical density and exposure is called:a. a bar chartb. a characteristic curvec. an exposure chartd. a logarithmic chart
Q25. The three main steps in processing a radiograph are:a. developing, frilling, and fixationb. developing, fixation, and washingc. exposure, developing, and fixationd. developing, reticulation, and fixation
Q26. Radiographic contrast in a neutron radiograph is least affected by:a. developer temperatureb. radiographic exposure timec. radiographic beam collimationd. radiographic film fog
Ug?
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Q27. Higher resolution can be achieved in direct neutron radiography by:a. placing lead intensifying screen between a gadolinium screen and filmb. increasing the L/D ratio of the collimation systemc. increasing the exposure timed. increasing the distance between the object and the film cassette
Q28. The main reason for using neutron radiography in place of X-radiography is:a. lower costb. higher resolution in all casesc. the ability to image objects and materials not possible with X -raysd. simpler radiographic procedure required than X -radiography
Q29. The best material for mounting specimens for neutron radiographic inspection is:a. cardboardb. plasticc. steeld. aluminum
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Q30. Which of the following materials is best for making identification labels when using the neutron radiographic process?a. aluminumb. brassc. cadmium or gadoliniumd. lead
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Q31. As a check on the adequacy of the neutron radiographic technique, it is customary to place a standard test piece on the source side of the cassette.This standard test piece is called:a. a reference plateb. a lead screenc. a penetrameterd. an image quality detector (BPI/SI)
Q32. A densitometer is:a. a meter used to measure neutron intensityb. an instrument used to measure film densityc. a meter used to measure the density of a materiald. a meter used to measure gamma content
Q33. The ability to detect a small discontinuity or flaw is called:a. radiographic contrastb. radiographic sensitivity.c. radiographic densityd. radiographic resolution
will
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ASTM Designation: E 545 – 99Standard Test Method forDetermining Image Quality in Direct Thermal NeutronRadiographic Examination1. Scope1.1 This test method covers the use of an Image Quality Indicator (IQI) (BPI & SI) system to determine the relative2 quality of radiographic images produced by direct, thermal neutron radiographic examination. The requirements expressed in this test method are not intended to control the quality level of materials and components.
1.2 This standard does not purport to address the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
1.3 The values stated in SI units are regarded to be standard.
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Q34. Movement, geometry, and screen contact are three factors that affect radiographic:a. contrastb. unsharpnessc. reticulationd. density
Q35. The difference between the densities of two areas of a radiographic film is called:a. radiographic contrastb. subject contrastc. film contrastd. definition
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Q36. The selection of the proper type of film to be used for neutron adiographic examination of a particular part depends on the:a. thickness of the partb. material of the specimenc. neutron energyd. none of the above (all the above? or depending on the converter screen used?)
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Q37. When radiographing a part that contains a large crack, the crack will appear on the radiograph as:a. a dark, intermittent, or continuous lineb. a light irregular linec. either a dark or light lined. a fogged area on the radiograph
Q38. Radiographic sensitivity, in the context of defining the minimum detectable flaw, depends on:a. the graininess of the filmb. the unsharpness of the flaw image in the filmc. the contrast of the flaw image on the filmd. all of the above
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Q39. An Image Quality Indicator is used to measure the:a. size of discontinuities in a partb. density of the filmc. amount of film contrastd. quality of the radiographic technique
Q40. Unwanted inclusions in a part will appear on a radiograph as:a. a dark spotb. a light spotc. a generalized gray area of varying contrastd. either a dark or a light spot or area depending on the relative absorption ratio of the part material and the inclusion material
Q41. A sheet of cadmium with an opening cut in the shape of the part to be radiographed may be used to decrease the effect of scattered neutrons, which undercuts the specimens. Such a device is called a:a. maskb. filterc. back-scatter absorberd. lead-foil screen
Q42. The accidental movement of the specimen or film during exposure or the use of a source-film distance that is too small will:a. produce a radiograph with poor contrast .b. make it impossible to detect large discontinuitiesc. result in unsharpness of the radiographd. result in a fogged radiograph
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Q43. Dysprosium (16466Dy) conversion screens emit:
a. low-energy betas and gammasb. high-energy betas β, low-energy gammas γ, and internal-conversion electrons e (more reading!)c. beta particles onlyd. low-energy gamma rays only
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16466Dy(n,γ)165
66Dy,
16566Dy → 165
67Ho + 1.3 MeV β + e (T½ = 2.35 hrs)
16566Dy → 165
67Ho + 1.0 MeV β + e (T½ = 1.3 min)
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TABLE 6. Properties of Some Thermal Neutron Radiography Conversion Materials
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TABLE 7.4. The characteristics of some possible neutron radiography converter materials
Practical.NR Table 7.4
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Table 1.4 The Characteristics of Some Possible Neutron Radiography Converter Materials [Ref. 14]
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Table 1.4 The Characteristics of Some Possible Neutron Radiography Converter Materials [Ref. 14]
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Characteristics of DysprosiumDysprosium metal is obtainable as foil up to about 0.025 cm thick. It has a semi bright, smooth appearance and is sufficiently hard to withstand normal handling without incurring scratches or abrasions which will show on a radiographic image. Table 1.11 shows that naturally occurring dysprosium has seven stable isotopes, of which Dy156 and Dy158 can be neglected owing to their small abundance. The isotopes Dy160, Dy161 , Dy162 and Dy163 are not important for the transfer method since they do not form radioactive isotopes.
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The important isotope is Dy164 since this has a large cross-section for the formation of Dy165 , which is formed with a half life of 2.35 hrs and which decays into stable Ho 165 with the emission of 1 .3 MeV (maximum) beta rays. This transition has a 2.35 hr half-life.
Dy 165 also has a metastable state, and this has an associated decay emission of 1.0 MeV (maximum) beta rays, but the half-life is only 1.3 minutes and in practice this isotope does not contribute much to the photographic exposure. The isotopes of dysprosium beyond Dy165 do not have any great cross-section for neutron absorption and so do not make any practical contribution to the process of neutron-radiographic image formation.
16466Dy(n,γ)165
66Dy, 16566Dy → 165
67Ho + 1.3 MeV β + e (T½ = 2.35 hrs)
16566Dy → 165
67Ho + 1.0 MeV β + e (T½ = 1.3 min)
Q44. Materials in common usage for moderation of fast neutron sources include:a. aluminum, magnesium, and tinb. water, plastic, paraffin, and graphitec. neon, argon, and xenond. tungsten, cesium, antimony, and columbium
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Q45. In the converter screen technique, the neutron image is produced by alpha, beta, or gamma radiation and it is thereby:a. used to measure neutron beam divergenceb. externally cooled during the processc. photographically more detectable than the unconverted neutron imaged. an important factor for determining Young's modulus of the material
Q46. Converter screen material characterized by lithium, boron, and gadolinium has little tendency to become radioactive but does:a. protect the radiographic film from excessive pressureb. recharge the focal point size of the neutron sourcec. filter and collimate the excess neutronsd. emit radiation immediately upon the absorption of a neutron
Q47. Gadolinium is frequently employed as a neutron absorber because of its:a. extremely low costb. high neutron absorption for a given thicknessc. ability to absorb gamma raysd. ability to diffract alpha particles
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TABLE 7.4. The characteristics of some possible neutron radiography converter materials
Practical.NR Table 7.4
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Q48. An excellent radiograph is obtained under given exposure conditions with a thermal neutron flux of 2 x 106 n/cm2∙s for 10 minutes. If other conditions are not changed, what exposure time would be required if the neutron flux was lowered to 1 x 106 n/cm2∙s?a. 5 minutesb. 10 minutesc. 20 minutesd. 30 minutes
Q49. Neutron converter screens should be inspected forflaws or dirt:a. dailyb. each time they are usedc. occasionallyd. when flaws are detected on the radiograph
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Q50. The primary advantage of using a Cf-252 source for neutron radiography is its:a. portabilityb. low cost per unit neutron flux compared to other neutron radiographic sourcesc. high resolutiond. long useful life without source quality degradation
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Q51. Neutron beams used in nondestructive testing normally contain:a. alpha particlesb. positronsc. gamma rays and neutronsd. X-rays
Q52. In neutron radiography, LID refers to the:a. limiting neutron energy divided by the neutron densityb. largest neutron flux in the system divided by the beam diameterc. distance from the neutron source to the object divided by the source diameterd. distance from the neutron source to the picture divided by the beam diameter
Q53. A type of neutron beam collimator is a:a. mean free path diaphragmb. divergent beam collimatorc. polycellular field generatord. neutron beam catcher
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Q54. Commonly used converter screens are:a. gadolinium, dysprosium, and indiumb. neodymium, plutonium, and technetiumc. gadolinium, lead, and indiumd. gold. silver, and cadmium
Q55. In order to decrease geometric unsharpness:a. neutrons should proceed from as small a source as other
considerations will allow (D)b. neutrons should proceed from as large a source as other considerations
will allow (D)c. the film should be as far as possible from the object being radiographed (t!)d. the distance from the source to the material examined should be as small
as practical (L)
Ug = Dt/(L-t)
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Q56. High-resolution gadolinium conversion screens are produced by:a. flame spray techniquesb. being grown in large flat crystalsc. vacuum vapor depositiond. large brazing systems
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Q57. In order to increase the neutron beam intensity:a. the LID could be loweredb. the neutron energy must be increasedc. the test specimen should be moved further from the filmd. a smaller source size could be used
Q58. Neutron exposure may be due to:a. the direct beam from the neutron sourceb. scatter radiation arising from objeCts in the direct beamc. both a and bd. neither a nor b
Q59. Gadolinium conversion screens emit:a. gamma rays and conversion electrons (155
64Gd → 15664Gd + e + γ)
b. beta particles only (Gd to Gd!) 不该犯的错误!c. alpha particles and positronsd. gamma rays only
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Q59. Gadolinium conversion screens emit:a. gamma rays and conversion electrons(155
64Gd → 15664Gd + e + γ)
b. beta particles only (Gd to Gd!) 不该犯的错误!c. alpha particles and positronsd. gamma rays only
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Q60. Which elements are commonly used in the indirect transfer method?a. gadolinium and cadmiumb. rhodium and samariumc. dysprosium and indiumd. cadmium and dysprosium
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Q61. Which element is commonly used for direct neutron radiography?a. cadmiumb. indiumc. dysprosiumd. gadolinium
Q62. Neutron sensitive scintillators provide:a. high quality radiographs with long exposuresb. low quality radiographs with long exposuresc. low quality radiographs with short exposuresd. none of the above
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Q63. Lead is:a. a good neutron shieldb. easily activated by neutronsc. a poor neutron absorberd. an efficient conversion screen
Q64. Neutron energy; exposure time, and film type are three important neutron radiographic parameters that can be controlled. What other parameter can be controlled?a. L/Db. conversion efficiencyc. type of conversion screend. both a and c
Q65. The purpose of vacuum cassettes is to:a. eliminate scattered radiationb. block unwanted gamma radiationc. assure intimate film-to-foil contactd. protect parts from the radiation emitted by the conversion screen
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66. In making a californium isotope exposure in an unshielded area, you find the dose rate 1.9 m (6ft) from the source is 1200 mR/h. What would be thedose rate at 7.3 m (24ft)?a. 75 mR/hb. 100 mR/hc. 200 mR/hd. 300 mR/h
67. In developing film by hand technique without agitation:a. the radiograph will not show proper contrastb. it will be impossible to fix the radiographc. there will be a greater fogging of the filmd. there will be a tendency for each area of the film to affect the development of the area immediately below it
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68. Film developed by automatic processors:a. will have improved detail of the imageb. will have a general increase in the film densityc. takes longer to develop than when processing manuallyd. will create less fog on the film
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69. The emulsion side of a single-coated photographic X-ray-type film usedfor neutron radiography can be detected in the darkroom using standard safelights as the:a. printed identifying marks on the emulsion sideb. darker of the two sidesc. duller and lighter color of the two sidesd. printed identifying marks on the non-emulsion side
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70. The purpose of film containers is to:a. protect the film from lightb. protect the film from scratchesc. neither a nor bd. both a and b
71. The two most common causes for excessively high density radiographs are:a. insufficient washing and overdevelopingb. contaminated fixer and insufficient washingc. overexposure and contaminated fixerd. overexposure and overdevelopment
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Q72. Single-emulsion high-resolution X-ray film is very good for neutron radiography because:a. it has a very thin emulsion (resulting in greater definition)b. it is sensitive to low-energy radiation and insensitive to high-energy radiation (?)c. it is faster than other filmsd. both a and b
Filtering effect here?
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Q72. Single-emulsion high-resolution X-ray film is very good for neutron radiography because:a. it has a very thin emulsion (resulting in greater definition)b. it is sensitive to low-energy radiation and (some what) insensitive to high-energy (gamma) radiation (?)c. it is faster than other filmsd. both a and b
Gadolinium screen
Gamma component affect only one side
Incoming Neutron beam with gamma components
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Q72. Single-emulsion high-resolution X-ray film is very good for neutron radiography because:a. it has a very thin emulsionb. it is sensitive to low-energy radiation and insensitive to high-energy radiationc. it is faster than other filmsd. both a and b
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Q73. Which of the following materials is suited for construction of vessels or pails used to mix processing solutions?a. stainless steelb. aluminumc. galvanized irond. tin
Q74. Excessive exposure of film to light prior to development of the film will most likely result in:a. a foggy filmb. poor definitionc. streaksd. a yellow stain
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Q75. White crescent-shaped marks on an exposed X-ray film are most likely caused by:a. crimping film after exposureb. crimping film before exposurec. sudden extreme temperature change while processingd. a warm or exhausted fixer
Q76. Reticulation resulting in a puckered or netlike film surface is probably caused by:a. crimping film after exposureb. sudden extreme temperature change while processmgc. water or developer on unprocessed filmd. excessive object-film distance
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Q77. Frilling 皱边,脱模 or loosening of the emulsion from the base of the film is most likely caused by:a. water or developer on unprocessed filmb. the low temperature of processing solutionsc. developer solution contaminationd. a warm or exhausted fixer solution
Q78. When the minute silver grains, on which the X-ray film image is formed, group together in relatively large masses, they produce a visual impression called:a. air bellsb. graininessc. reticulationd. frilling
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Q79. Static marks, which are black tree-like or circular marks on a radiograph,are often caused by:a. the film being bent when inserted in a cassette or holderb. foreign material or dirt embedded in screensc. scratches on lead foil screensd. improper film handling techniques
Q80. The purpose of agitating an X-ray film during development is to:a. protect the film from excessive pressureb. renew the developer at the surface of the filmc. disperse unexposed silver grains on the film surfaced. prevent reticulation
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Q81. When manually processing films, the purpose of tapping the hangerssharply two or three times after the films have been lowered into thedeveloper is to:a. disperse unexposed silver grains on the film surfaceb. prevent frillingc. dislodge any air bubbles clinging to the emulsiond. all of the above
Q82. The decrease in activity of the developer solution is compensated by:a. constant agitationb. maintaining processing solutions within the recommended temperature rangec. avoiding contamination from the wash bathd. adding replenisher
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Q83. The purpose of fixation is to;a. remove all the undeveloped silver salts of the emulsionb. leave the developed silver as a permanent imagec. harden the gelatind. all of the above
Q84. For the best results when manually processing film, solutions should be maintained within the temperature range of:a. 65 °F and 75 °Fb. 65 °C and 75 °Cc. 75 °F and 85 °Fd. 75 °C and 85 °C
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Q85. Water spots on films can be minimized by:a. the rapid drying of wet filmb. immersing wet film for 1 or 2 minutes in a wetting agent solutionc. using a fresh fixer solutiond. cascading water during the rinse cycle
Q86. The most suitable films for producing neutron radiography are:a. red sensitive filmsb. PolaroidTM filmsc. industrial X-ray filmsd. medical X-ray films
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Q87. The normal development time for manually processing X-ray film is:a. 12 to 18 minutes in processing solutions at 75 °Fb. 3 to 8 minutes in processing solutions at 75 °Fc. 12 to 18 minutes in processing solutions at 68 °Cd. 5 to 8 minutes in processing solutions at 68 °F (20°C)
Q88. A properly exposed radiograph that is developed in a solution at a temperature of 58 °F will be:a. overdevelopedb. underdevelopedc. foggedd. damaged by frilling
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Q89. An advantage of the fountain-pen type of ionization chamber used to monitor radiation received by personnel is that:a. it provides a permanent record of accumulated dosageb. it provides an imediate indication of dosagec. it is the most sensitive detector availabled. all ofthe above
Q90. What radiation dose would be dangerous, if not fatal, if applied to the entire body in a short period of time?a. 1.5 to 15 R (rem)b. 25 to 70 R (rem)c. 200 to 800 R (rem)d. all of the above doses would most likely be fatal
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Q91. The average thermal neutron flux that gives a dose of 100 mrem in 40 hours is:a. 700 n/cm2∙sb. 70 n/cm2∙sc. 7 n/cm2∙sd. 0.7 n/cm2∙s
Q92. When working with a neutron radiography facility, the radiation expected is:a. gammab. betac. neutrond. all of the above
Q93. The intensity of neutron radiation is usually measured m:a. roentgensb. ergsc. neutrons/cm∙s (n∙cm-1s-1) (n∙cm-2s-1?)d. neutrons/cm
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94. What does the term (R/h) refer to when speaking of intensity?a. radiation limits for humansb. roentgens per hourc. X -rays per hourd. radiation in hydrogen
95. Small amounts of exposure to neutrons or gamma rays:a. may have a cumulative effect that must be considered when monitoring for maximum permissible doseb. will be beneficial since they build up an immunity to radiation poisoning.c. will have no effect on human beingsd. will have only a short-term effect on human tissues
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96. Overexposure to neutron or gamma rays may cause damage to human:a. blood and skinb. skinc. internal organsd. all of the above
97. A general rule used-to define an excessive amount of radiation exposure is:a. anything above 0.4 R (rem) per week, although small amounts of radiation (0.4 R [rem] per week or less) are beneficial since they build up immunity to these raysb. any dose over 5 R (rem) per weekc. any dose that causes a mid-range reading on a Geiger counterd. any unnecessary exposure to radiation
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98. A primary disadvantage of the fountain-pen type of ionization chamber used to measure the amount received by personnel is the:a. delay necessary before the results of a measurement are knownb. inaccuracy of such devices in measuring scatter radiationc. inability of such a device to provide a pennanent record of exposured. cost of recharging such devices
99. The exposure of personnel to X- and gamma radiation can be determined by means of:a. film badgesb. dosimetersc. radiation metersd. all of the above
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100. The intensity of gamma rays is measured in:a. roentgensb. ergsc. roentgens per unit of timed. H & D units
101. Divergent neutron beams:a. do not obey the Inverse Square Law of distanceb. obey the Inverse Square Law of distancec. use lead for shieldingd. none of the above
102. A radioactive source used for neutron radiography is:a. PU-239b. Co-60c. Cs-137d. Cf-252
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103. The half-life of Cf-252 is:a. 9 yearsb. 2.6 yearsc. 6 monthsd. 47.5 years
104. Cf-252 is:a. a spontaneous fission sourceb. a fissile sourcec. both a and bd. neither a nor b
105. A normally desirable feature of a thermal neutronbeam for neutron radiography is:a. low gamma radiation intensityb. relatively low, fast neutron intensityc. low, angular divergence (so resolution capabilities for thicker objects can be good)d. all of the above
http://www.chemicalelements.com/elements/cf.html
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Q106. To achieve uniformity in neutron radiographs, it is recommended that:a. manual processing be usedb. automatic processing be usedc. it does not matter which process to used. the Shockly process be used
Q107. The approximate energy of a thermal neutron is:a. 1 MeVb. 0.026 eV (0.01~0.3ev)c. 12 KeVd. 114eV
Q108. The material that slows down neutrons is called:a. a moderatorb. an accumulatorc. a limitord. none of the above
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TABLE 6. Properties of Some Thermal Neutron Radiography Conversion Materials
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109. A good moderating material is:a. waterb. iron.c. leadd. all of the above
110. If the temperature decreases, the energy of a thermalneutron will:a. increaseb. decreasec. stay the samed. none of the above
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111. A main disadvantage of gadolinium screens is:a. that they are expensiveb. that they are magneticc. that they have poor sensitivity to neutronsd. both a and b
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111. A main disadvantage of gadolinium screens is:a. that they are expensiveb. that they are magneticc. that they have poor sensitivity to neutronsd. both a and b
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112. The main advantage of a divergent beam collimator is:a. that no dividing slats are used which could possibly cause lines on a radiographb. that there is a minimal neutron reflection if the sides of the collimator are made of a neutron absorbing materialc. that it is relatively simple to manufactured. all of the above
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Q113. The main disadvantage of a divergent beam collimator is:a. that less resolution is possible than with a parallel beam collimator of the same length (L/D ratio?)b. the large physical size of the collimator to achieve L/D ratios that are necessary for good resolution (does answer “b” tally with “a” ?)c. that the small end of the collimator near the effective thermal neutron source is small, therefore minimizing the displacement of the moderatord. all of the above
Q114. The definition of a neutron is:a. the uncharged particle having a mass slightly greater than that of the protonb. the uncharged particle having a mass slightly less than that of a protonc. the positive charged particle having a mass slightly less than that of the protond. none of the above
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115. To an Operational Health Physicist, the abbreviation, RBE means:a. Rapid Biological Energyb. Roentgen Background Embrittlementc. Relative Biological Effectivenessd. both a and b
116. The cross section is expressed in area units, the most common being the one that is equal to 10-24 cm2 This is the:a. femtob. teroc. barnd. watt
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Q117. The transfer exposure method is used because:a. it is not sensitive to gamma radiationb. it has greater radiographic sensitivity than the direct exposure method using gadoliniumc. it is faster than the direct exposure methodd. the screens used in this method emit only internal conversion electrons of about 70 ke V
Q118. Which of the following elements has the largest mass absorption coefficient for thermal neutrons?a. boronb. leadc. gadoliniumd. copper
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The neutrons transmitted through a radioactive specimen will strike a metal detection foil such as indium, dysprosium or gold, rather than a converter screen with film.
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Q119. The term “ macroscopic cross section (Σ) " is synonymous with the:a. linear attenuation coefficient (μ) for neutrons (σN, cm-1) b. microscopic cross section (σ) for neutrons (cm2)c. mass attenuation coefficient (σ/ρ) for neutronsd. cadmium ratio for neutrons
Comments:μ = ρ∙N/A∙σ, σ = microscopic cross section, Σ= ρ∙σ = macroscopic cross section
MACROSCOPIC SCATTERING CROSS SECTIONSThe distinction between macroscopic and microscopic cross-section is that the former is a property of a specific lump of material (with its density), while the latter is an intrinsic property of a type of nuclei.https://en.wikipedia.org/wiki/Nuclear_cross_section
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Comments:It should be noted that there is also a cross section called the 'linear a absorption coefficient' with the dimension cm-1. This is the same as the macroscopic cross section but is more usually used in describing alpha, beta and gamma interactions.
Neutron Radiographic Handbook
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Level 2 QuestionsNeutron Radiographic Testing Method
Refresh the RED
Refresh the RED
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Q1. A nuclear reactor produces neutrons that have energies distributed fromless than 0.01 eV to greater than 20 MeV. For most neutron radiography, thethermal energy group is used. This group has energies:a. below 0.01 e Vb. 0 to 0.3eVc. 0.3 to 10 000 eVd. 10 keV to 20 MeVe. >20 MeV
Q2. The primary radiation mechanism for darkening X-ray film when the directradiography process is used employing gadolinium screens is:a. alpha particlesb. electronsc. gamma raysd. light emission
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3. Neutron radiography is an excellent tool for determining:a. the coating thickness of aluminum oxide on anodized aluminumb. voids in thick steel castingsc. the integrity of thin plastic material within a lead housingd. voids in thick plastic sections
4. Which of the following materials is the greatest attenuator of thermal neutrons?a. aluminumb. copperc. lithiumd. Iron
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Q5. Thermal neutrons that are relatively free from higher energy componentsare obtained by allowing neutrons from the source (reactor, radioactivesource, accelerator) to pass through moderating material. This material maybe:a. waterb. paraffinc. graphited. all of the above
Q6. The sample part may become radioactive as the result of neutron activation during the neutron exposure. As a general rule, the level of radioactivity will be:a. highb. very lowc. dangerously highd. none of the above
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Q7. The absorption of neutrons in an object depends upon:a. the neutron cross sectionb. the nuclides in the object I=Ioe –μnt, μn = [ρN/A]∙σc. the object thickness N= Avogadro Number, A= mass atomic weight
d. all of the above ρ = density g/cm2, σ=neutron cross section cm2
Q8. The energy of the neutrons in a neutron beam:a. is the same for all neutron beamsb. does not affect the radiographic parametersc. has no bearing on neutron absorption in the material to be radiographedd. directly influences the choice of usable conversion screens
Avogadro’s Number = 6.02214129x 1023 mol-1https://en.wikipedia.org/wiki/Avogadro_constant
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Q9. Gadolinium and cadmium have:a. a flat neutron cross section across all energiesb. a cross section which peaks at thermal energiesc. a high thermal neutron cross section which drops off rapidly at higher energiesd. their highest neutron cross section at 1.4 eV (resonance?)
Q10. Which of the following conversion screens has the longest half-life?a. Dysprosium (2.3 hours)b. Indium (54 min)c. Cadmium (stable)d. Gadolinium (stable)
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TABLE 7.4. The characteristics of some possible neutron radiography converter materials
Practical.NR Table 7.4
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11. The unique and important properties of the neutron in neutronradiography come primarily from the fact that it is a nuclear particle that iselectrically neutral. The lack of electric charge means that its electrostaticinteraction with the atom's electrons is:a. almost completeb. scatteredc. almost completely negligibled. such that the electrons and neutrons combine with each other
12. The rare earths are frequently used in neutron radiography. An interestingfeature of this family of elements is:a. that they have nearly identical chemical properties and are, therefore, difficult to tell apartb. that they make up about one-sixth of all naturally occurring elements, but the entire group occupies only one position in the Periodic Tablec. that they have large absorption cross sections for neutronsd. all of the above
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13. A thin sheet of gadolinium foil, in intimate contact with photographic filmduring neutron exposure, will increase film density because:a. it fluoresces and emits visible light, which helps expose the filmb. it emits electrons that darken the filmc. it absorbs the scattered radiationd. it prevents back-scattered radiation from fogging the film
14. For direct neutron radiography, precaution has to be taken to reduce thegamma ray background of most sources as this tends to obscure the neutronradiograph. This may be done by:a. using filtration of gamma rays (Bi, Pb)b. increasing the source-to-film distancec. both a and bd. neither a nor b
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Q15. The transfer exposure technique, sometimes called the indirect technique, uses neutron converters that have a reasonably long radioactive half-life. Which of the following would be a good candidate?a. Indium (54min)b. Dysprosium (2.3hrs)c. both a and bd. neither a nor b
Q16. Which of the following neutron radiography converter foils cannot be used for transfer or indirect radiography?a. dysprosiumb. indiumc. Gadolinium (stable)d. Gold (2.7d)
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Q17. The quality of the results from a neutron radiographic facility is best determined by:a. reference standardsb. image-quality indicatorsc. neutron flux measurementd. densitometer readings
Q18. Flaws in the imaging screens can be separated from actual flaws in a part being radiographed by:a. performing a photographic copy of the original neutron radiograph using X -ray duplicating filmb. comparing a neutron radiograph of the parts to a blank neutron radiograph of the same imaging screen with no parts in placec. increasing the exposure time of the radiographd. decreasing the temperature of the developer solution
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19. The best method for determining how resolution affects the ability tointerpret the radiograph of parts is by:a. radiographing parts that have known measured defectsb. using a penetrameterc. using a penetrameter containing cadmium Wedgesd. using a penetrameter containing plastic wedges
20. The slope of a straight line joining two points of specified density on the characteristic curve of a film is known as the:a. speed of the curveb. latitudec. average gradientd. density
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21. The range of densities which are satisfactory for interpretation is a measure of the:a. subject contrast of a radiographb. sensitivity of a radiographc. latitude of a radiographd. definition of a radiograph
22. The transmission of neutrons by a material varies:a. directly with the square of the distance from the sourceb. directly with the thickness of the materialc. inversely with the amount of scattering in the materiald. exponentially with the thickness of the material
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23. Which of the following is not a factor in determining subject contrast?a. the nature of the specimenb. the neutron energyc. the type of film usedd. the intensity and distribution of the scattered radiation
24. When viewing a radiograph, an image of the back ofthe cassette superimposed on the image of thespecimen is noted. This is most likely due to:a. undercutb. overexposurec. neutron intensity being too highd. back scatter
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25. A qualitative term often used to indicate the size of the smallest detail which can be seen in a radiograph is:a. radiographic sensitivityb. radiographic definitionc. radiographic contrastd. subject contrast
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Q26. The quantitative measure of film blackening is referred to as:a. definitionb. photographic densityc. film contrastd. radiographic contrast
Q27.A curve that relates density to the logarithm of exposure or of relative exposure is called:a. a sensitivity curveb. a density-exposure curvec. a characteristic curved. an X -ray intensity curve
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28. Subject contrast is affected by:a. thickness differences in the specimenb. neutron energyc. scattered radiationd. all of the above
29. Contrast enhancement of a neutron radiograph can be achieved by:a. using photographic techniques with X-ray duplicating filmb. increasing the radiography system resolutionc. varying the object-to-film distanced. increasing the gamma radiation reaching the film from the source
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Q30. The uniformity of a neutron radiograph is best determined by measuring the density of a:a. neutron radiograph at several locations with many parts in placeb. neutron radiograph at several locations with no parts in placec. photographic copy of a neutron radiograph with many parts in placed. photographic copy of a neutron radiograph with no parts in place
Q31. The density measurement in a neutron radiograph that is of most interest in determining part flaws is the density measurement:a. at the center of the filmb. at the comer of the filmc. at the edge of the filmd. in the area of interest within the parts being radiographed
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32. A neutron radiograph beam from a reactor was measured to have a thermal neutron flux of 3.4 x 106 n∙cm-2∙ s-1 and a gamma rate of 26 R/h. Which of the following would be the neutron to gamma ratio in units of n∙cm-2
∙mR-1?a. 4.7 x 102
b. 4.7 X 105 3.4 x 106 / [(26/60x60) x 103] C. 2.1 X 105
d. 2.1 X 102
Q33. In direct neutron radiography using gadolinium, cleanliness is essential when handling film cassettes because:a. dust or lint between the film and the gadolinium shows as a flaw in the radiographb. dust on the outside of the film cassette is always visible in the neutron radiographc. dust is highly absorbent to neutronsd. dust greatly affects the development of X-ray film
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34. A dysprosium conversion screen is exposed in a thermal neutron beam. After decay time of 6.9 hours: (3 half-life)a. 3/4 of the original activation will remainb. 1/2 of the original activation will remainc. 1/8 of the original activation will remain (1/2)3
d. there will be no change from original activation levels
35. When sharp, black, bird-foot shaped marks appear on the film in areas where there are no possible discontinuities, they are probably caused by:a. prolonged development in an old developerb. exposure of the film by natufal cosmic radiationc. static charges caused by frictiond. inadequate rinsing after fixing
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36. Images of discontinuities close to the source side of the specimen become less clearly defined as the:
a. source-to-object distance increasesb. thickness of the specimen increasesc. size· of the neutron source decreasesd. thickness of the specimen decreases
37. The amount of unsharpness of a radiograph is:a. directly proportional to the object-to-film distance and inversely
proportional to the size of the sourceb. directly proportional to the size of the source and inversely
proportional to the source-to-object distancec. inversely proportional to the object-to-film distance and directly
proportional to the source-to object distanced. inversely proportional to the size of the source and the object-to-film
distance
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38. The most commonly used converter material is:a. copperb. tungstenc. goldd. gadolinium
39. As the effective energy of the radiation from the conversion screen increases:a. film graininess increasesb. film graininess decreasesc. radiographic definition decreasesd. film speed decreases
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40. A general rule governing the application of the geometric principles of shadow formation states that the: a. neutrons should proceed from as large a source area as other considerations will allowb. distance between the source and material should be as small as practicalc. film should be as far as possible from the object being radiographedd. axis of the beam should be as nearly perpendicular to the film as possible, to preserve spatial relationships
41. A neutron radiograph made with an exposure of 12 minutes has a density of 0.8 in the region of maximum interest. It is desired to increase the density in this area to 2.0. By reference to a characteristic curve of the film, it is found that the difference in between a density of 0.8 and 2.0 is 0.76. The antilogarithm of 0.76 is 5.8. What must be the new exposure time to produce a radiograph of density 2.0?a. 30 minutesb. 21.12 minutesc. 69.6 minutesd. 16 minutes
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42. Which of the following factors will not materially influence the image density of a neutron radiograph?a. the type of film usedb. the size of the filmc. the type of conversion screen usedd. the exposure time
43. X-ray films with large grain size:a. will produce radiographs with better definition than film with small grain sizeb. have slower speeds than those with a relatively small grain sizec. have higher speeds than those with a relatively small grain sized. will take longer to expose properly than film with a relatively small grain size
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44. The uneven distribution of developed grains within the emulsion of a processed X-ray film causes the subjective impression of:a. graininessb. Streaks 条纹c. spotsd. white scum
45. An X-ray type film used for neutron radiography having wide latitude also has, by definition:a. poor definitionb. low contrastc. high speedd. none of the above
Latitude = exposure latitude
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46. The gradient of a characteristic curve for a photographic film for neutron radiography is the greatest as a density of:a. <0.5b. 0.5c. 1.0d. >1.0
47. For practical purposes, the shape of the characteristiccurve of an X -ray film is:a. independent of the type of film usedb. independent of the energy of the neutron beamc. drastically changed when neutron energy is changedd. primarily determined by the subject contrast
48. The interval between the time a film is placed in a fixer solution and the time when the original diffuse, yellow milkiness disappears is known as the:a. clearing timeb. fixing timec. hardening timed. oxidation time
49. Improper geometric factors, poor contact between film and conversion screen, and graininess of film are possible causes of:a. high film densityb. poor definitionc. fogged filmd. increased contrast
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50. It is known that the density of a film increases with increasing exposure up to a maximum value. Increasing the exposure beyond this point results inan actual decrease of density. This phenomena is referred to as:a. density-intensity turnaboutb. subject contrast inversionc. film contrast inversiond. reversal
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51. The activity of the fixer diminishes after being used for a period of time because:a. the active ingredients evaporateb. the active ingredients are absorbed by the radiographc. the fixer solution accumulates soluble silver saltsd. the active ingredients settle to the bottom of the tank
52. Developer solution should be discarded when the quantity of replenisheradded equals:a. the original quantity of developerb. 2 to 3 times the original quantity of developerc. 5 to 6 times the original quantity of developerd. 10 times the original quantity of developer
to
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53. Agitation of the X-ray film during the development process by means of mechanical stirrers or circulating pumps may:a. speed the developing cycleb. help replenish the developerc. cause undesirable preferential flow of developer along certain pathsd. cause reticulation
54. In processing radiographs, the hourly flow of water in the wash tank should be:a. 2 to 3 times the volume of the tankb. 4 to 8 times the volume of the tankc. at least 151 L (40 gal) per hourd. varied continuously in proportion to the number of radiographs being developed
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55. The slope (steepness) of a characteristic curve is a measure of the:a. subject contrastb. radiographic definitionc. radiographic contrastd. film contrast
56. As the development time increases:a. the characteristic curve grows steeper and moves to the left (with less exposure for a given density by overdevelopment)b. the characteristic curve grows steeper and moves to the rightc. the characteristic curve remains the same in shape but moves to the leftd. there is little effect on the characteristic curve
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57. Which of the following instruments would most likely by used to detect small leaks in a radiation barrier?a. a film badgeb. a fountain pen type of ionization chamberc. a Geiger counterd. a dosimeter
58. The quantity of neutron radiation upon an area of film for an exposure:a. is the product of the neutron flux and timeb. is the neutron fluxc. varies exponentially with timed. varies inversely proportional with time
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59. The energy of the neutron is expressed by which of the following units of measurement?a. curieb. roentgenc. half-lifed. electron volts
60. Neutrons for fast-neutron radiography are obtainable from:a. acceleratorsb. radioactive sourcesc. reactorsd. all of the above
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61. "Macroscopic cross section" as applied to neutrons is analogous to for γrays:a. cross sectionb. mean free pathc. attenuation coefficientd. wavelength
62. For high quality radiographs, a 25-micrometer thick gadolinium screen combined with fine-grain X-ray film requires an exposure of about:a. 3 x 103 n/cm2
b. 3 x 105 n/cm2
c. 3 x 107 n/cm2
d. any of the above
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63. Neutron monitoring outside a radiography exposure area may be done with:a. a Geiger counterb. a "cutie-pie" (ionization chamber)c. a BF3 proportional counterd. all of the above
64. Special neutron-sensitive film dosimeters:a. should be worn by neutron radiographersb. employ a film-screen combination principal similar to radiographyc. also give a measure of γ dosed. all of the above
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More Reading on: BF3 (Boron Trifluoride) proportional counterPURPOSE: To obtain a proportional counter tube having high neutron detection sensitivity and small temperature dependence by installing at least one unit counter tube along a unit counter tube charged with BF3 gas at given pressure and electrically connecting the anodes of the unit counter tubes together and their cathodes together.
CONSTITUTION: A unit proportional counter tube is constituted of an anode 1a, a cathode 2a and insulating supports 11a and 13a. Another unit proportional counter tube is constituted of an anode 1b, a cathode 2b and insulating supports 11b and 13b. These unit proportional counter tubes are charged with BF3 gas at 350Torr or below. When d.c. high voltage is applied from the outside to the electric conductor 10 and the airtight case 7 of a BF3 proportional counter tube charged with BF3 at 350Torr or below and the BF3 proportional counter tube is placed in a field of neutrons, the number of pulse signals taken outside the counter tube equals the sum of the numbers of pulse signals from the two unit counter tubes. Therefore the total neutron detection sensitivity equals the sum of the neutron detection sensitivities of the two unit counter tubes. However, since the detection characteristics of the two unit counter tubes have equal temperature dependence, the temperature dependence of the total detection characteristic is equal to that of the detection characteristics of the two unit counter tubes
http://www.sumobrain.com/patents/jp/Bf3-proportional-counter-tube/JPS60172155A.html
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More Reading on: BF3 (Boron Trifluoride) proportional counterThe proportional counter is a type of gaseous ionization detector device used to measure particles of ionizing radiation. The key feature is its ability to measure the energy of incident radiation, by producing a detector output that is proportional to the radiation energy; hence the detector's name. It is widely used where energy levels of incident radiation must be known, such as in the discrimination between alpha and beta particles, or accurate measurement of X-ray radiation dose.
A proportional counter uses a combination of the mechanisms of a Geiger-Muller tube and an ionisation chamber, and operates in an intermediate voltage region between these. The accompanying plot shows the proportional counter operating voltage region for a co-axial cylinder arrangement.
https://en.wikipedia.org/wiki/Proportional_counter
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Plot of variation of ion pair current against applied voltage for a wire cylinder gaseous radiation detector.
https://en.wikipedia.org/wiki/Proportional_counter
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65. For the same beam intensity, which of the following will give the largest biological dose?a. fast neutronsb. thermal neutronsc. gamma raysd. all are equal by definition
66. For fast-neutron monitoring, a thermal-neutron sensitive radiation counter may be used in conjunction with:a. a moderatorb. an ionization chamberc. a conversion foild. a collimator
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Biological dose rate
http://aibob.blogspot.com/2011/12/nuclear-bombs-testing.html
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Biological dose rate
http://www.dankalia.com/delloro/sda/book/plts/index.htm
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Biological dose rate
http://aibob.blogspot.com/2011/12/nuclear-bombs-testing.html
Charlie C
hong/ Fion Zhang
Biological dose rate
http://aibob.blogspot.com/2011/12/nuclear-bom
bs-testing.html
Charlie C
hong/ Fion Zhang
Biological dose rate
http://aibob.blogspot.com/2011/12/nuclear-bom
bs-testing.html
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67. If the biological dose rate at 1.5 m (5 ft) from a point source of radiation is10 mrem/h, then the minimum permissible distance at which a worker mayremain for continuous (full work week) exposure is about: (Assume maximumexposure of 100 mrem/week)a. 3m (10ft)b. 6 m (20ft)c. 15.2 m (50ft)d. 30.5 m (100ft)
68. In a radiation area where the dose rate is established to be 25 mrem/h, aworker during a work week may spend no more than: (assume minimumexposure of 100 mrem/week)a. 6 minutesb. 1 hourc. 4 hoursd. 8 hours
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69. Upon exiting from a radiation zone, you begin a G-M survey of an object. The needle begins to rise and then suddenly drops to zero. You should assume that the:a. G-M tube has rupturedb. G-M jammed because of too much radiationc. G-M probe has become grossly contaminatedd. rubbers are not contaminated
70. The G-M cannot be used to establish dose rates because:a. the G-M is not reliable and tends to driftb. the beta shield is too thick on the G-Mc. the G-M does not account for the degree of ionization or energy absorption of ionizing particles or photonsd. the G-M is designed to detect only alpha contamination on scintillators
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71. A direct reading pocket dosimeter may be sensitive to what radiation?a. βb. γc. γ, nd. either a or b
72. A film dosimeter useful for neutron radiographers will be sensitive to what radiation?a. α, β, γ, nb. α, β, γc. β, γ, d. β, γ, n
Question: Then how α particles are detected?
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73. Thermal-neutron-sensitive radiation counters usually contain:a. gadoliniumb. cadmiumc. Boron (BF3 proportional counter)d. lead
74. If 2 mm (0.08 in.) of plastic attenuates a thermal neutron beam by a factor of 2, then 20 mm (0.8 in.) will attenuate it by approximately a factor of:a. 10b. 100c. 1000d. 10000 I=Io e –μt
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75. The high attenuation of thermal neutrons by plastics is due primarily to:a. scatteringb. absorptionc. both a and bd. none of the above
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76. Photographic density is a quantitative measure of:a. film thicknessb. film weightc. film blackeningd. object opacity
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77. Film exposed to a density of 2 will transmit what percentage of the light incident upon it?a. 50%b. 25%c. 2%d. 1%
78. An image-quality indicator is:a. a scanning densitometerb. a chemical stainc. a penetrameterd. all of the above
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79. Radiography using the transfer method implies that the imaging screen:a. is placed behind the filmb. is placed in front of the filmc. is very thind. becomes radioactive
80. In the list below, the best filter material for making an epithermal neutron beam is:a. cadmiumb. waterc. borond. lead
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81. Fast neutron attenuation:a. increases significantly with increasing atomic massb. decreases significantly with increasing atomic massc. has significant random variations with atomic massd. is similar for most materials
82. Which of the following is most widely used in the detector for imaging fast neutrons?a. hydrogenous materialb. goldc. aluminumd. lithium
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83. The linear attenuation coefficient for neutrons is described in the following equation: μ = Nσt, Which of the following statements is true?a. N = number of nuclei per cm3 of attenuating materialb. σt =total cross section (cm2 ), equal to the sum of absorption and scattering cross sections (σs + σa )c. σa = absorption cross sectiond. all the above
84. Real-time imaging of thermal neutron radiography can be performed with which of the followingdetectors? a. gadoliniumb. dysprosiumc. zinc sulfide + lithium fluorided. europium
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85. A neutron beam undergoes which of the following interactions when penetrating matter?a. scatterb. pair productionc. Thompson effectd. compton scattering
86. A Geiger-Muller instrument is a:a. pocket sized dosimeterb. scintillation counterc. hand-held survey meterd. proportional counter
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87. The thermalization factor is the:a. ratio between the total 4π fast neutron yield and the peak thermal
neutron fluxb. dose of ionizing radiation that can be absorbed per unit volumec. mean square distance while slowing downd. mean time spent diffusing in a test object before being captured in a
detector
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88. Energy classification places epithermal neutrons in the range:a. below 0.01 eVb. from 0.3 eV to 100 keVc. from 0.3 to 10 000 eV (0.3ev ~ 10kev)d. from 10 keV to 20 MeV
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89. A shutter for turning the neutron beam ON and OFF at a nuclear reactor can be accomplished by:a. the electronic circuitryb. a small mechanical camera shutterc. boron shuttersd. aluminuin shutters
90. Gadolinium screens have been shown to resolve high contrast images separated by distances as small as:a. 2.5 mm (0.1 in.)b. 1 mm (0.04 in.)c. 0.1 mm (0.004 in.)d. 0.01mm (0.0004 in.)
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91. The best radiographic resolution and contrast capability for direct exposure radiography has been obtained with:a. gadolinium screensb. indiumc. silverd. cadmium
92. Radiography requiring utmost speed and no more than 0.05 mm (0.002 in.) resolution would require which of the following detectors?a. gadolinium screensb. scintillator screensc. dysprosium screensd. silver screens
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93. In which of the following neutron beams does the intensity follow the inverse square law?a. divergent beamb. soller slit beamc. neutron spectrometer beamd. monochromatizing crystal beam
94. Neutron radiography:a. complements X-radiographyb. can discriminate between neighboring elements such as boron and carbonc. can inspect large thicknesses of heavy metalsd. all of the above
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95. Neutron radiography extends radiographic capability for detecting cracks in small:a. aluminum pinsb. iron pinsc. magnesium pinsd. plutonium pins
96. Film fogging during radiography of radioactive materials (5000 R/h at 31 cm [1ft]) is minimized by using:a. direct X-radiographic methodsb. pinhole autoradiographyc. transfer method with dysprosium screensd. photography
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97. What radiography technique should be used for obtaining improved penetration of 20% Pu, U-235 enriched fuel pellets, ~ 6 mm diameter?a. thermal neutron with gadolinium screenb. epithermal neutron and indium screenc. epithermal neutron and dysprosiumd. autoradiography
98. Neutron radiography can be used for inspecting which of the following applications?a. presence of explosive in a metal deviceb. presence of foreign material such as oilc. lubricants in metal systemsd. hydrogen content in metalse. all of the above
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Image Converters■ Indirect (transfer) technique, dysprosium (Indium, Gold?)
● thermal neutrons radiography - indium, and dysprosium converters ● epithermal neutrons radiography - indium and gold converters
■ Direct technique, indium (?) and gadolinium■ Track-etch technique, boron and lithium
Remembering & pass your
exams!
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2.5.5.7 Image recorders to be used for measurement are film or celuloseacetate. Films are discussed in para. 2.4. Celulose acetate has the higherresolution, but very low contrast. It is recommended that an increase incontrast is obtained by copying the original on to Kodalith film type 2571 bymeans of a point source, or condenser type, photographic enlarger.
2.5.5.8 Neutron energy and image converter combination. It is recommendedthat indium, and dysprosium converters are used with thermal neutrons andindium and gold converters for epithermal neutrons.
■ thermal neutrons radiography - indium, and dysprosium converters ■ epithermal neutrons radiography - indium and gold converters
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99. Disadvantages of the transfer technique include that it:a. is time consumingb. requires many imaging foilsc. provides lesser resolution than the gadolinium direct methodd. costs more to use dysprosium foils than gadolinium foilse. all of the above
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Breaks-Malaysian Coffee treat comes with half boiled eggs.
http://hailamkopitiam.blogspot.com/2010/11/good-taste-good-food-everyday-only-at.html
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Level 3 QuestionsNeutron Radiographic Testing Method
Refresh the RED
Refresh the RED
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The neutrons transmitted through a radioactive specimen will strike a metal detection foil such as indium, dysprosium or gold, rather than a converter screen with film.
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TABLE 6. Properties of Some Thermal Neutron Radiography Conversion Materials
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TABLE 7.4. The characteristics of some possible neutron radiography converter materials
Practical.NR Table 7.4
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Physical PrinciplesNature of Penetrating RadiationQ1. Neutrons:a. are uncharged particlesb. have a mass slightly less than a protonc. are found in the nuclei of all isotopesd. have all of the above properties
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Q2. Which of the following is true for neutron radiographic conditions?a. hydrogen in the object will more nearly stop high energy neutrons (well
above 0.025 eV) than it will typical thermal neutrons (close to 0.025 eV) .b. epithermal neutrons (of indium resonance energy 1.4eV ) will cause
more ionization per neutron than thermal neutrons and therefore cause more risk from radiation damage to sensitive materials
c. in neutron radiography of a typical fast reactor fuel pin, each thermal neutron captured normally gives rise to about two fast neutrons and significant delayed gamma radiation
d. the angle of scatter for fast neutrons will, on the average, be greater than that of thermal neutrons and this is one factor contributing to the difficultyof clear fast neutron radiography
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Nuclear Fission in Reactoreach thermal neutron captured normally gives rise to about two fast neutrons
significant delayed gamma radiation
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Q3. A thermal neutron beam is extracted horizontally from a reactor.Neglecting scatter by air or other materials in its path, what would you expect the beam path over the first 15m (49 ft) to do?
a. remain horizontal because the neutrons are essentially unaffected by gravity
b. drop by 23 mmc. drop by 228 mmd. drop by 15 mm (0.6 in.)
Calculation:Vn = ⅓∙c = 108m/s, assuming Vhorizontal=0, Drop, S= ½ a∙∆t2 = ½ x 9.81 x (15/Vn)2 = very smallIf the speed of the thermal neutron Vn, was assumed to be 1/3 speed of light.
For a drop of 228mm (0.228m), the Vn;√(.228 x2 /0.981) =(15/Vn) = 0.2126Vn = 15/0.2126 = 69.57m/s
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Interaction between Penetrating Radiation and MatterQ4. When the mass absorption coefficient for neutrons is plotted as a functionof atomic number of absorber, it presents a:a. regularly increasing curveb. random curvec. single peak curved. double peak curve
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Q5. You have to neutron radiograph an object that required visualization ofvery small hydrogenous details behind 76 mm (3 in.) of steel. The standard technique using a tangential beam on a reactor provesinsufficient. What would be the recommended approach?
a. send the object to a high intensity (or flux boosted) Cf-252 system where itcould be exposed for very long periods (e.g., over a weekend)
b. send the object to a Van de Graaffneutron radiography system and request fast neutron point source neutron radiography using sulphuractivation transfer to avoid any gamma fog
c. send the object to a facility performing cold neutron radiographyd. send the object to a pulsed reactor and use real time imaging in
conjunction with time of flight methods
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Q6. Which of the following statements is incorrect?a. neutron radiography excels in imaging plastic objects behind metal wallsb. X-radiography is eminently suitable for imaging complicated
nonradioactive metal objects that are not too thick (i.e., less than I cm [0.4 in.])
c. Neutron radiography is suitable for imaging items composed of iron and plastic regardless of the thickness of the plastic provided only that the iron is less than 25 mm (I in.) thick
d. indium resonance neutrons are frequently used to enhance the penetration of thick plastic objects
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Q7. From the following penetrating radiations, which one can best be used to radiograph a cylinder of hydrocarbon plastic that is 50 mm (2 in.) in diameterin which we want to image embedded metal parts?a. fast neutronsb. thermal neutronsc. cold neutronsd. X-rays
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Imaging by FilmQ8. Following neutron capture in a gadolinium-foil converter, which of thefollowing is emitted from the foil surface interact in the photographic emulsionto produce a high-resolution latent image?a. X-raysb. gamma raysc. alpha particlesd. conversion electrons
Q9. A fact concerning the reciprocity law failure (of film?) in neutron radiography is that:a. film density of X-ray films is not proportional to log 10 exposureb. film density of light sensitive films is not proportional to exposurec. reciprocity law failure of X-ray films is partially alleviated by development at higher temperatures (80 "F)d. reciprocity law failure of light sensitive films is partially alleviated by exposure with scintillator convertors at low temperature
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Radiography Reciprocity LawRadiography uses the laws of photography to take cross-sectional images with X-rays to produce photos of varied density material, such as the human body. Radiologists require proper exposure of X-rays to accurately analyze the photos. The reciprocity law controls exposure balance, or the light level of an image
DefinitionA photography term, reciprocity refers to the inverse relationship of light and intensity on film to produce a clear and balanced exposure. Ignoring the reciprocity law causes underdeveloped and overexposed photos. A balanced exposure can be reached at more than one level of intensity and time. As one factor changes, however, the other must also change equally in the opposite direction to maintain proper exposure. For example, if you increase the amount of light intensity by one unit, you must reduce the amount of time by one unit and vice versa.
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FormulaThe reciprocity law formula used in photography requires the exposure to equal the intensity of light multiplied by time. Radiology re-formats the equation for its equipment and exposure needs. In radiology, the reciprocity law is generally read as:
C1/C2 = T2/T1
C1 = Current* 1
C2 = Current 2
T1 = Time 1 at C1
T2 = Time 2 at C2
*The current used in the radiology formula is similar to intensity in photography, where it is the intensity of the X-rays or the amount of light current that is used on the film.
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Reciprocity FailureA shift in color balance and underexposure occurs when the reciprocity law fails, also known as the reciprocity effect. This happens when the speed of the film is reduced significantly, which alters how the film reacts to light over time. Very slow speeds need further light exposure.
Read more : http://www.ehow.com/facts_7332239_radiography-reciprocity-law.html
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Reciprocity (photography) The WikiIn photography reciprocity is the inverse relationship between the intensity and duration of light that determines the reaction of light-sensitive material. Within a normal exposure range for film stock, for example, the reciprocity law states that the film response will be determined by the total exposure, defined as intensity × time. Therefore, the same response (for example, the optical density of the developed film) can result from reducing duration and increasing light intensity, and vice versa.
The reciprocal relationship is assumed in most sensitometry, for example when measuring a Hurter and Driffield curve (optical density versus logarithm of total exposure) for a photographic emulsion. Total exposure of the film or sensor, the product of focal-plane illuminance times exposure time, is measured in lux seconds.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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History The idea of reciprocity, once known as Bunsen–Roscoe reciprocity, originated from the work of Robert Bunsen and Henry Roscoe in 1862.
Deviations from the reciprocity law were reported by Captain William de Wiveleslie Abney in 1893, and extensively studied by Karl Schwarzschild in1899. Schwarzschild's model was found wanting by Abney and by Englisch, and better models have been proposed in subsequent decades of the early twentieth century. In 1913, Kron formulated an equation to describe the effect in terms of curves of constant density, which J. Halm adopted and modified, leading to the "Kron–Halm catenary equation“ or "Kron–Halm–Webb formula“ to describe departures from reciprocity.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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In chemical photography In photography, reciprocity refers to the relationship whereby the total light energy – proportional to the total exposure, the product of the light intensity and exposure time, controlled by aperture and shutter speed, respectively –determines the effect of the light on the film. That is, an increase of brightness by a certain factor is exactly compensated by a decrease of exposure time by the same factor, and vice versa. In other words there is under normal circumstances a reciprocal proportion between aperture area and shutter speed for a given photographic result, with a wider aperture requiring a faster shutter speed for the same effect. For example, an EV of 10 may be achieved with an aperture (f-number) of f/2.8 and a shutter speed of 1/125 s. The same exposure is achieved by doubling the aperture area to f/2 and halving the exposure time to 1/250 s, or by halving the aperture area to f/4 and doubling the exposure time to 1/60 s; in each case the response of the film is expected to be the same.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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Reciprocity failureFor most photographic materials, reciprocity is valid with good accuracy over a range of values of exposure duration, but becomes increasingly inaccurate as we depart from this range: this is reciprocity failure (reciprocity law failure, or the Schwarzschild effect). As the light level decreases out of the reciprocity range, the increase in duration, and hence of total exposure, required to produce an equivalent response becomes higher than the formula states; for instance, at half of the light required for a normal exposure, the duration must be more than doubled for the same result. Multipliers used to correct for this effect are called reciprocity factors (see model below).
At very low light levels, film is less responsive. Light can be considered to be a stream of discrete photons, and a light-sensitive emulsion is composed of discrete light-sensitive grains, usually silver halide crystals. Each grain must absorb a certain number of photons in order for the light-driven reaction to occur and the latent image to form. In particular, if the surface of the silver halide crystal has a cluster of approximately four or more reduced silver atoms, resulting from absorption of a sufficient number of photons (usually a few dozen photons are required), it is rendered developable.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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At low light levels, i.e. few photons per unit time, photons impinge upon each grain relatively infrequently; if the four photons required arrive over a long enough interval, the partial change due to the first one or two is not stable enough to survive before enough photons arrive to make a permanent latent image center.
This breakdown in the usual tradeoff between aperture and shutter speed is known as reciprocity failure. Each different film type has a different response at low light levels. Some films are very susceptible to reciprocity failure, and others much less so.
Some films that are very light sensitive at normal illumination levels and normal exposure times lose much of their sensitivity at low light levels, becoming effectively "slow" films for long exposures. Conversely some films that are "slow" under normal exposure duration retain their light sensitivity better at low light levels.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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For example, for a given film, if a light meter indicates a required EV of 5 and the photographer sets the aperture to f/11, then ordinarily a 4 second exposure would be required; a reciprocity correction factor of 1.5 would require the exposure to be extended to 6 seconds for the same result. Reciprocity failure generally becomes significant at exposures of longer than about 1 sec for film, and above 30 sec for paper.
Reciprocity also breaks down at extremely high levels of illumination with very short exposures. This is a concern for scientific and technical photography, but rarely to general photographers, as exposures significantly shorter than a millisecond are only required for subjects such as explosions and particle physics experiments, or when taking high-speed motion pictures with very high shutter speeds (1/10,000 sec or faster).
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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Schwarzschild lawIn response to astronomical observations of low intensity reciprocity failure, Karl Schwarzschild wrote (circa 1900):"In determinations of stellar brightness by the photographic method I have recently been able to confirm once more the existence of such deviations, and to follow them up in a quantitative way, and to express them in the following rule, which should replace the law of reciprocity: Sources of light of different intensity I cause the same degree of blackening under different exposures t if the products I x t0.86 are equal.“
Unfortunately, Schwarzschild's empirically determined 0.86 coefficient turned out to be of limited usefulness. A modern formulation of Schwarzschild's law is given asE = Itp
where E is a measure of the "effect of the exposure" that leads to changes in the opacity of the photosensitive material (in the same degree that an equal value of exposure H = It does in the reciprocity region), I is illuminance, t is exposure duration and p is the Schwarzschild coefficient.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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However, a constant value for p remains elusive难以捉摸的, and has not replaced the need for more realistic models or empirical sensitometric data in critical applications.
When reciprocity holds, Schwarzschild's law uses p = 1.0.
Since the Schwarzschild's law formula gives unreasonable values for times in the region where reciprocity holds, a modified formula has been found that fits better across a wider range of exposure times. The modification is in terms of a factor the multiplies the ISO film speed:
Relative film speed = (t + 1) (p-1)
where the t + 1 term implies a breakpoint near 1 second separating the region where reciprocity holds from the region where it fails.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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Simple model for t > 1 secondSome models of microscope use automatic electronic models for reciprocity failure compensation, generally of a form for correct time, Tc, expressible as a power law of metered time, Tm, that is, Tc=(Tm)p, for times in seconds. Typical values of p are 1.25 to 1.45, but some are low as 1.1 and high as 1.8.
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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Q10. When a neutron-sensitive fluorescent screen is used in conjunction with a photographic film, the film exposure satisfies the Schwarzchild relationship,E = I + p, where p = 0.75. This means that, if a flux, Io , gives a satisfactoryexposure in 1 minute, a flux 1/10 as great, Io/10, will require an exposure timeof approximately:a. 5 minutesb. 10 minutesc. 20 minutesd. 40 minutes
Q11. The photographic latent image may be defined as that radiation-inducedchange in a grain or crystal that renders the grain readily susceptible to thechemical action of a developer. The material of the latent image itself istypically:a. silver ionsb. silver atomsc. silver oxided. silver iodide
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Q12. Track etch neutron imaging differs from dysprosium transfer imaging inwhich of the following ways?a. it provides higher contrastb. it is unaffected by gamma fogging from the beam or objectc. it provides poorer edge definitiond. it is suitable for use in low intensity beams where long exposure times are acceptable
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Imaging by Fluorescent MaterialsQ13. When fluorescent materials are employed for neutron radiographic
imaging, reciprocity failure is often encountered. This is due to the fact that:a. greater energy is deposited in the film grain by light emission from
the fluorescent screen to render the grain developable than can be achieved with metal foil conversion screens
b. less energy is deposited in the film grain to render it developable than with metallic conversion screens
c. the fluorescent screen is electrically nonconductingd. the fluorescent screen does not respond to gamma radiation
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Imaging by Electronic DevicesQ14. Electron imaging devices invariably provide:a. amplification of both signal and noise including statistical noiseb. intimate film to conversion screen contactc. discdrnination against scattered neutronsd. direct external conversion electrons of varying energies
Q15. Substitution of gadolinium-oxysulfide for ZrS-Li6F as the input converter is an electronic imaging device will normally result in:a. increased discrimination against gamma radiationb. increased inherent unsharpnessc. the need for increased electronic gaind. decreased image retention between frames
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RadiometryQ16. The "cadmium ratio" of a neutron refers to:a. the ratio of thermal neutron flux above cadmium cutoffb. the ratio of thermal neutron flux to gamma dose ratec. the ratio of total neutron flux to the neutron flux above about 0.5 e Vd. the ratio of neutron flux above about 0.5 eV to the thermal neutron flux
Cadmium ratio - the ratio of the response of two identical neutron detectors, usually activation types such as indium or gold, one exposed bare to the beam and the other cadmium covered (the cadmium covered detectorrecords primarily neutrons having an energy above 0.5 eV and the ratio is a measure of thermalization in the neutron spectrum).
cadmium
detector
detector
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Cadmium ratio - the ratio of the response of two identical neutron detectors, usually activation types such as indium or gold, one exposed bare to the beam and the other cadmium covered (the cadmium covered detectorrecords primarily neutrons having an energy above 0.5 eV and the ratio is a measure of thermalization in the neutron spectrum).
Practical Neutron Radiography J. C. Domanus pg.267
cadmium
detector
detector
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cadmium ratioThe ratio of the response of an uncovered neutron detector to that of the same detector under identical conditions when it is covered with cadmium of a specified thickness.
http://encyclopedia2.thefreedictionary.com/cadmium+ratio
The cadmium ratio, the ratio of the unshielded count rate to that with the cadmium cover has a value of 117.889. The cadmium ratio is an indication ofthe degree to which a given neutron field has been thermalized. Theunshielded count rate includes both thermal and resonance neutrons, whilethe count rate with the sleeve consists of only the resonance contribution. Theratio measured in lab implies a good level of thermalization in the neutronsemitted from the source.
http://www-personal.umich.edu/~ianrit/ners575/neutron.pdf
https://en.wikipedia.org/wiki/Reciprocity_(photography)
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SOURCES OF NEUTRONSNeutron Sources-General Reactors17. High quality neutron radiographs are produced by reactor neutron sources because of the:a. absence of fast neutronsb. large physical size of the reactor corec. strong resonance in the reaction cross section at 120 keVd. high core flux in the range of 1012 to 5 x 1014 n/cm2∙s
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Accelerators18. Which one of the following generators has a significant neutron yield at low bombardment energies?a. Van de Graafb. T(d,n)c. linear acceleratord. D(d,n)
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Isotopic SourcesQ19. The neutron-producing reaction of Cf-252 is:a. spontaneous fissionb. (a, n) reactionc. (y, n) reactiond. none of the above
Q20. Of the isotopic sources employed for neutron radiography, which of the following sources decays by the spontaneous fission process?a. Sb-124-Beb. Po-210-Bec. Cf-252d. none of the above
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RADIATION DETECTORSImaging Converter ScreensQ21. For fast films, thermal neutron fluxes of about 104 nV (?) (n/cm2∙s)represent the minimum useful intensity for conventional transfer neutronradiography utilizing which one of the following conversion screens?a. rhodiumb. Dysprosium (T ½ = 2.3hr)c. silverd. gadolinium
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22. You normally use gadolinium direct exposure methods at your facility.You have available only one gadolinium screen, 36 cm x 43 cm (14 x 17 in.). One day. you wish to neutron radiograph a single very large object (100 cm x 30 cm [39 x 12 in.]) in a single exposure. Obtaining a widely divergent beam is no problem at this facility. Screens, however, are aproblem. You are willing to sacrifice some image quality in order to avoid the expense of such a large vapor-deposited screen. To get the best results at the lowest cost you would:
a. use a thick plastic screen as a proton knock-on neutron converterb. use an aluminum plate coated with gadolinium oxide paintc. use "no-screen" type film, with no converter but with approximately treble
normal neutron exposuresd. use an europium screen
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Film-principles, Properties, Use with Neutron Converter Screens23. A 20 percent increase in exposure (∆log E = 0.08) for a given film-convector combination results in a film density change from 2.3 to 2.7. The gradient of the characteristic curve is:a. 0.2b. 0.032c. 2.0d. 6.0
D.125Radiography in Modern Industry. Rochester, NY: Eastman Kodak Co. 1969.
∆log E = 0.08D2= 2.3
D1=2.7
Log(X1/X2) =0.08X1/X2= 1.2∆D=0.4G=0.4/0.08G=5
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Now consider two slightly different thicknesses in a specimen. These transmit slightly different intensities of radiation to the film; in other words, there is a small difference in the logarithm of the relative exposure to the film in the two areas. Let us assume that at a certain kilovoltage the thinner section transmits 20 percent more radiation than the thicker. The difference in logarithm of relative exposure (Δ log E) is 0.08, and is independent of the milliamperage, exposure time, or source-film distance. lf this specimen is now radiographed with an exposure that puts the developed densities on the toe of the characteristic curve where the gradient is 0.8, the x-ray intensity difference of 20 percent is represented by a density difference of 0.06 (See Figure 115). If the exposure is such that the densities fall on that part of the curve where the gradient is 5.0, the 20 percent intensity difference results in a density difference of 0.40.
Radiography in Modern Industry. Rochester, NY: Eastman Kodak Co. 1980
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24. LiP, Zn S(Ag) neutron scintillators, which can be used as a fluoroscopicscreen, emit blue light that:a. is a good match for the spectral response of most filmb. is a good match for the spectral sensitivity of the human eyec. creates high screen brightnessd. creates high resolution in the image
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25. Which of the following facts are true concerning the use of a regular X –ray gadolinium Gd2O2S screen as a neutron converter?
a. the film is exposed by a combination of light and electrons generatedinitially at over 10 different energy levels
b. the film is exposed mainly by blue light as for a typical LiF-ZnS (Ag) scintillator screen
c. the gamma discrimination is better than would be true for a gadolinium metal foil converter
d. the sharpness of the radiograph will usually be inferior if the rearscintillator face is photographed through a camera rather than imaged with an equal quality film placed adjacent to the rear of the screen
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Evaluation of Gd2O2S:Tb as a Phosphor for the Input Screen of X-Ray Image IntensifierX-ray fluorescent screens consisting of a powder embedded in a silicone resin matrix and deposited on an aluminum plate have been prepared with the phosphors Gd2O2S:Tb and (ZnCd)S:Ag(P-20) at a series of different screen thicknesses. The x-ray conversion efficiency of the screens was measured using both radioisotopes and a dental radiography unit as x-ray sources. To simulate screen performance in an x-ray image intensifier tube, the screens were optically coupled to the photomultiplier which served as the detector. We found that Gd2O2S:Tb screens were substantially superior to P-20 screens in both x-ray conversion efficiency and x-ray energy absorption efficiency. Experimental screen efficiencies agree with those derived from theory by an analysis in which the efficiency of the conversion of absorbed x-ray energy to light is assumed equal to the energy efficiency of the phosphor under cathode ray excitation and optical parameters of the screens are used to estimate the efficiency with which the generated light is transmitted to the detector.
http://ieeexplore.ieee.org/xpl/articleDetails.jsp?reload=true&arnumber=4326777
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Fluoroscopy-TV and Optical Systems26. A practical video neutron-radiographic system could not be based on a:a. boron converterb. dysprosium converter (transfer screen with excessive prompt γradiations?)c. gadolinium converterd. lithium converter
Gaseous Ionization Detectors27. When using a gaseous proportional counter for neutron radiography, theprincipal ionization event utilizing thermal neutrons is due to which of thefollowing?a. photoelectric effect with certain gasesb. piezoelectric effect on the electrodesc. gaseous discharge between the electrodesd. alpha particles
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TABLE 7.4. The characteristics of some possible neutron radiography converter materials
Practical.NR Table 7.4
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Neutron Detectors28. Which of the following types of detectors would be least likely to be usedfor neutron detection?a. BF3 proportional counterb. Nal scintillation counterc. plastic scintillation counterd. lithium-glass scintillation counter
29. Neutrons may be detected and measured using a foil activation technique(transfer technique? Or both direct & transfer? ) . A foil material suitable fordetecting thermal neutrons with this technique is:a. carbonb. goldc. Gadolinium (justifiable?)d. boron
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30. A boron trifluoride neutron counter BF3 is known as a proportional counterbecause:a. the neutron cross section is proportional to the inverse of neutron energyb. the neutron cross section is proportional to the inverse of neutron velocityc. the electronic signal is proportional to the voltage applied to the systemd. the quantity of charge collected for a given amount of radiation is larger than, but proportional to, the original amount of ionization
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Instrumentation31. The output of most non-imaging neutron detectors is:a. an electric signalb. an acoustic signalc. a mechanical signald. a thermal signal
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Gaging and Control Processes32. A gaging setup can distinguish 5% changes in intensity of a transmittedneutron beam. If the average thickness of a sheet being gaged attenuates theneutron-beam intensity by a factor of 20 (~ 3 mean free paths), how small achange in thickness will be detectable?a. 0.4%b. 1.15%c. 1.7%d. 4%
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33. A system of gaging in which the radiation is collimated and projectedthrough a test item and the quantity of unabsorbed radiation is measured isreferred to as the:a. fluoresence methodb. absorption differential methodc. attenuation "build up" methodd. transmission method
34. Generally, the sensitivity and accuracy of thickness gaging by reflection methods is:a. superior to transmission gagingb. superior to fluorescence methodsc. inferior to transmission gagingd. approximately the same as with transmission gaging
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PERSONNEL SAFETY AND RADIATION PROTECTIONExposure Hazards35. Where isotopic sources are employed for field neutron radiographic applications, the radiation levels near the biological shield should not exceed:a. 200 mR/h at the surface and 2 mR/h at 1 m (3.3 ft)b. 700 mR/h at the surface and I 0 mR/h at I m (3.3 ft)c. 1 R/h at the surface and 20 mR/h at 1 m (3.3 ft)d. none of the above
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Specific Neutron Hazards36. Which of the following neutron personnel monitoring conditions is
incorrect?a. monitoring of thermal neutrons (<0.5 eV) does not pose a serious problem
because of the ready availability of a number of suitable detectors, such asthe cadmium- or rhodium-covered personnel monitoring films and LiF-6thermo-luminescent detectors
b. the detector should respond predominantly to the type of radiation which it is meant to monitor and its sensitivity to other types of radiation that maybe simultaneously present should be minimal
c. intermediate energy neutron monitoring does not pose a serious problembecause the many types of albedo dosimeters now in use are reasonablyreliable due to the fairly linear response independent of neutron spectrum
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Albedo DosimetersOur thermoluminescent Albedo dosimeters are the perfect whole-body dosimeters for the surveillance of mixed radiation fields (neutrons, photons), in which the proportion of the neutron dose equivalent may exceed 20% of the photon dose equivalent.
The thermoluminescence (TL) dosimetry is an established method for measuring the personal dose equivalent caused by photon or neutron radiation. Our Albedodosimeters are ideally suited for the official surveillance of the personal dose in mixed radiation fields. Due to measurement methods developed according to the state-of-the-art in science and technology, our Albedo dosimeters can cover a large energy range.
A detector card equipped with four TL detectors is located in a plastic cassette. Two of the detectors are disposed behind an "Albedo neutron window". If ionizing radiation hits the detectors, energy is stored in the detector crystal. Upon heating, a part of this energy is released again in the form of light. The light intensity is a measure unit for the absorbed radiation.We use Harshaw 6600 type TL readers for dose calculation. Our Albedo dosimeter is as an official personal dosimeter approved for photon radiation by virtue of its construction by the Physikalisch-Technische Bundesanstalt(PTB).
http://www.helmholtz-muenchen.de/en/awst/services-products/whole-body-dosimetry/albedo/index.html
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Operation and Emergency Procedures37. "Occupational dose" as applied to the exposure of an individual to
radiation in a restricted area or in the course of employment in which theindividual's duties involve exposure to radiation shall:
a. not be deemed to include any exposure of an individual to radiation for thepurpose of medical diagnosis or medical therapy of such an individual
b. include all radiation received by an individual from his work duties, medical diagnosis, dental, or medical therapy
c. include only that radiation which he deems necessary to reportd. include only those doses that exceed 5 R in any one year
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38. The rad, as used in USNRC Title 10, Chapter 1 CFR, Part 20, is ameasure of dose of any ionizing radiation to body tissue in terms of theenergy absorbed per unit mass of the tissue. One rad is the dosecorresponding to the absorption of how many joules (ergs) per gram of tissue?a. 8.3 μJ (83.6 ergs) of energyb. 10 μJ ( 100 ergs) of energyc. 9.3 μJ (93 ergs) of energyd. 7.6 μJ (76.2 ergs) of energy
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39. An unrestricted area means:a. any area where doctors and medical staff personnel are allowed to pass
while on dutyb. any area established to perform radiographic operation usually roped off to
2 mR/hc. any area used to store radioactive materials or radiation-producing
equipmentd. any area to which access is not controlled by the licensee for
purposes of protection of individuals from exposure to radiation and radioactive materials, and any area used for residential quarters
40. Units of radioactivity are commonly measured in terms of disintegrations per unit time or in curies. One curie is:
a. 2.2 x 103 disintegrations per secondb. 3.7 x 106 disintegrations per secondc. 3.7 x 1010 disintegrations per secondd. dependent on the type of isotope
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41. What is the maximum dose that a worker can be permitted to receive in arestricted area in any one calendar quarter? (3 months)
a. 5 rems - whole body, head trunk, active bloodforming organs, lens of theeye, or gonads
b. 4 rads - whole body, head trunk, active bloodforming organs, lens of the eye, or gonads
c. 3 rems - whole body, head trunk, active bloodforming organs, lens of the eye, or gonads
d. 1-1/4 rems - whole body, head trunk, active blood-fanning organs, lens of the eye, or gonads
(5 rems per year 3 rems per quarter)http://www.nucleartourist.com/systems/rad.htm
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THE RADIOGRAPHIC PROCESSImaging Considerations - Sensitivity42. According to the standard ASTM E-545, which of the following is anacceptable level of neutron radiographic sensitivity?a. S =10b. S = 15c. R = 5d. R = 10
ASTM E545 - 14 Standard Test Method for Determining Image Quality in Direct Thermal Neutron Radiographic Examination
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Contrast and Definition43. Which of the following parameters do not directly affect radiographic definition?a. focal spot or source sizeb. densityc. type of screend. radiation quality
44. Film contrast refers to:a. the density difference in two adjacent regions of filmb. the steepness (slope) of the characteristic curvec. the ratio of X-ray or gamma-ray intensities transmitted by two selected portions of a specimend. minimum perceptible density change
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45. In general, the contrast of radiographic films (except those designed foruse with fluorescent screens):a. increases continuously with film densityb. decreases as the density is increasedc. remains practically unchanged for different density levelsd. is inversely proportional to film density
46. Specimens with uniform thickness and composition by definition have:a. high subject contrastb. good definitionc. high film contrastd. low subject contrast
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47. The sharpness of outline in a radiographic image is referred to as:a. definitionb. sensitivityc. latituded. contrast
48. Poor radiographic definition could be the result of:a. focal spot sizeb. source film distancec. poor film-screen contactd. all of the above
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49. Based on the characteristic curves of the films below, which film provides the highest contrast?a. FilmXb. FilmYc. Film Zd. cannot be determined from the curves
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Geometric Factors50. When a given resolution is desired in a radiograph, a compromise mustbe made between attainable resolution and neutron flux at the image planebecause:a. a greater flux is available at the image plane in high-resolution workb. the flux available at the image plane is directly proportional to the solid angle subtended by the aperture at that planec. the flux at the image plane is lessd. the flux available at the image plane is inversely proportional to the solid angle subtended by the aperture at that plane
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51. Converter or intensifying screens are utilized in both the direct andindirect photographic techniques. Which of the following is arranged from thehighest to the lowest cross section for thermal neutrons?a. gadolinium, dysprosium, indium, cadmiumb. samarium, cadmium, dysprosium, goldc. dysprosium, indium, gadolinium, silverd. boron, samarium,-cadmium, lithium
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The neutrons transmitted through a radioactive specimen will strike a metal detection foil such as indium, dysprosium or gold, rather than a converter screen with film.
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Intensifying Screens52. Dy-164 has a cross section of 2700 10-28 m2 (2700 barns) for the 1.25
minute half-life activity, and 800 10-28 m2 (800 barns) for the 140 minute half- life activity. Considering activation transfer neutron radiography in which there is minimal delay between foil neutron exposure and film contact, and assuming a long transfer period (12 hours), which of the following is true?
a. A greater film density could be obtained from a 20 MW -sec reactor pulsethan from the same facility operated at 100 kW for 104 seconds (2.78 hours)
b. the film density obtained from a 2000 MW reactor pulse is approximatelyequal to that obtained from an operation of the same facility at 100 kW for103 seconds (16.6 minutes)
c. if now a cadmium foil filter is put in the incident beam (epithermal neutron radiography instead of thermal) and the long 104 second exposure is used first with dysprosium foil transfer and then withindium foil transfer, the indium transferred activity is greater for dysprosium
d. none of the above
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Image Converters■ Indirect (transfer) technique, dysprosium (Indium, Gold?)
● thermal neutrons radiography - indium, and dysprosium converters ● epithermal neutrons radiography - indium and gold converters
■ Direct technique, indium (?) and gadolinium■ Track-etch technique, boron and lithium
Remembering & pass your
exams!
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Scattered Radiation53. The problem of scatter in an hydrogenous object being radiographed can be reduced by:a. increasing the L/D ratiob. using the transfer techniquec. employing laminographyd. placing a neutron-absorbing collimating grid between the object and the film
Source Factors54. Given a neutron beam with an L/D of 250, a thermal flux of 106 n.cm2∙s-1
and a 36-43 cm (14-17 in.) exposure area, what is the geometric sharpnessfor a test object of 6 mm (0.25 in.) thick?a. 0.01b. 0.05c. 0.001 Ug = Dt/d = 6/250 =0.024mmd. 0.005
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55. Indium-resonance neutrons:a. are not used in conjunction with an indium converterb. are never used in transfer radiographyc. are not used for reactor-fuel radiographyd. none of the above
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Detection Media56. Which of the following converters cannot be used for transfer neutron radiography?a. indiumb. dysprosiumc. cadmiumd. Rhodium
57. Cold neutrons can be detected with high efficiency, for imaging by:a. ordinary gadolinium convertersb. radiography film directlyc. special beryllium filtersd. both a and b
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58. The relative n/γ-ray sensitivity of metal-screen converters in generally about ________ that of scintillating-screen converters for direct exposureradiography.a. two orders of magnitude greater thanb. one order of magnitude greater thanc. the same asd. one order of magnitude less than
Exposure Curves59. The contrast observed in a radiographic image is greater when:a. the film density gradient is maximumb. the response of the human eye is logarithmicc. one operates at the lowest portion of the D-Log E curved. one operates at the highest portion of the D-Log E curve
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Film Processing, Darkroom Equipment and Chemicals60. Which statement concerning darkroom equipment and chemicals is
incorrect?a. processing rooms should be supplied with filtered air, at a pressure above
that of the outsideb. when exposed film is placed in developer, the solution penetrates the
emulsion and begins to transform the exposed silver halide crystals tometallic silver
c. vessels used for processing of films should not be made from aluminum or tin because they could cause contamination and result in fog in theradiograph
d. the usefulness of a fixer solution is ended when it has lost its basicity
D.S0-96
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61. In automatic processing, over-replenishment of the fixer solution may result in:a. poor fixationb. insufficient hardeningc. failure of the film to be transported through the fixer rackd. none of the above
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Background Lighting62. The contrast sensitivity of the human eye is greatest when the surroundings compared to the area of interest on a radiograph are:a. about the same brightnessb. of a lower brightnessc. of a higher brightnessd. brightness is not a factor in contrast sensitivity
V.17-21
63. For best contrast sensitivity, the film viewing room should have lighting:a. as dark as possibleb. of approximately 38 lumensc. of approximately 70 lumensd. as light as the area of interest in the film being reviewed
D.73
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64. When reviewing film, background lighting should:a. be virtually eliminatedb. not reflect on the film under examinationsc. be carefully filteredd. be approximately 20 lumens
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Density-Judging Radiographic Quality65. Photographic density refers to the quantitative measure of fllm blackening.When no danger of confusion exists, photographic density is usually spokenof merely as "density." Density is defined by the equation:
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Contrast66. Radiographic contrast for neutron radiography is a function of the:a. size and shape of the neutron sourceb. length of the beam collimatorc. L/D ratiod. gradient of the characteristic curve of the film and the neutron energy
67. Radiographic contrast in neutron radiography can sometimes beincreased by proper choice of converter foils. If a gadolinium foil were chosenin place of an indium foil, you might be seeking contrast enhancement from:a. the increased cross section in the sample for lower energy neutronsb. the use of prompt rather than delayed emission of radiationc. the generally thinner gadolinium foild. all of the above
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Definition68. Standard ASTM E-545 uses a maximum of how many sensitivity indicators (SI) ? BPI/SIa. 2b. 3c. 4d. 5
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Artifacts69. The appearance of colored stains on a processed radiograph could be caused by:a. neutralization of the acid in the fixer solutionb. neutralization of the alkaline content in the fixer solutionc. acidification of the fixer solutiond. underdevelopment
70. Prolonged washing of film in water above 68 ºF has a tendency to:a. crystallize the gelatinb. soften the gelatinc. cause the yellow staind. cause the image to fade
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71. The ASTM beam purity indicator BPI is designed primarily to indicate:a. contrastb. sharpnessc. speedd. all of the above
72. The image quality indicator is generally made of:a. the same material as that of the specimen being radiographedb. a more dense material than that of the specimen being radiographedc. a material having a 10% greater density than the specimen being radiographed into account thickness changesd. none of the above
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Exposure Calculations73. You design a divergent collimator NR system on a given beam port suchthat the exposure area is 10 x 10 cm (4 x 4 in.), and the geometricunsharpness is 50μm at 1 cm (0.4 in.) separation between detail and screen.
Using the same neutron source beam tube, you now redesign for a 30 x 30cm (12 x 12 in.) exposure area and a geometric unsharpness of 100 μm at 1cm (0.4 in.). The larger aperture and divergence cause a flux depression atthe source of a factor of 2 as compared with the first system. The newexposure time required when using gadolinium foil and Kodak SR film on athin object is 300 seconds. Estimate the original source flux and exposuretime.
a. 2 x 1011 n/cm2-sec, 6000 secondsb. 2 x 1012 n/cm2-sec, 600 secondsc. 2 x 1013 n/cm2-sec, 300 secondsd. 2 x 1014 n/cm2-sec, 30 seconds
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Calculation:Ug = Ft/d (F=focal size, t= Object to film distance, d= focal to object distance)0.05mm = Finitial t /10mm0.10mm = Fextended t /10mm
Finitial t / Fextended t= 0.5/1
The new focal size = 2 x the original focal sizeThe new focal area = 4 x the original focal area
Io/I = D22/D1
2 = 900/100 = 9, D2/D1 = √9 = 3(for Io= i/100 = 0.001, I = 1/900 = 0.011)
The larger aperture and divergence cause a flux depression at the source of a factor of 2 as compared with the first system.
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Given that the new exposure is 300 s :
• The original exposure with all parameters remain constant = 300/9 = 33.33s
• Taking in to consideration that the new exposure focal size is 4x the original focal size, the original exposure = 33.33 / 4 = 8.332s
• Taking into consideration that during new exposure, The larger aperture and divergence cause a flux depression at the source of a factor of 2 as compared with the first system; the original exposure = 8.332 x 2 = 16.665s
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74. In order to provide the initial evaluation as to the practicality of a particulardirect neutron radiograph exposure method, which term is not needed?
a. number of nuclei/cm3 of absorbing materialb. decay constant (0.693/T½ where T½ is the half-life)c. total cross section of material (in cm)d. Material thickness (in em)
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TABLE 6. Properties of Some Thermal Neutron Radiography Conversion Materials
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TABLE 7.4. The characteristics of some possible neutron radiography converter materials
Practical.NR Table 7.4
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RADIOGRAPHIC TECHNIQUESBlocking and Filtering75. A filter material commonly used in a neutron beam to improve the neutron-to-gamma ratio is:a. U-238b. bismuthc. copperd. lithium
Multifilm Techniques76. Which of the following is the most inclusive?a. M filmb. single emulsion filmc. Class I filmd. AA film
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Enlargement and Projection77. With the normal divergent collimator, image magnification occurs as thespacing between the object plane and the detector plane increases. If L is thesource-to-object distance, and t the object-toimage plane distance, then themagnification is:a. L/ tb. T / Lc. L/ L-td. (L+ t)/ L
Autoradiography78. A practical application of autoradiography subsequent to neutron activation is:a. a study of hydrogen embrittlement of titaniumb. faded photograph restorationc. a study of the diffusion of boric acid in concrete samplesd. both b and c
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Flash Radiography79. High-speed radiography can be best performed by:a. autoradiographyb. in-motion radiographyc. laminographyd. flash radiography using a pulsed neutron source
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Fluoroscopy80. One of the main disadvantages of a fluoroscopic system is:a. extensive operator training requiredb. high image brightness on screenc. flaw image enlargementd. limited ability to see fine detail
81. Fluoroscopy possesses certain advantages over film radiography such as its:a. attainable resolution is greater than with filmb. sensitivity is far greater than can be obtained with filmc. low cost and high speedd. none of the above
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Microradiography82. Which of the following parameters has minimal or no effect on resolution when making a microradiograph?a. the angular divergence of the neutron beamb. the thickness of the object being investigatedc. the type of converter material and the converter screen thicknessd. the latitude of the photographic emulsion
Laminography (Tomography)83. In tomography, the plane of the object that will be in focus is determined by the;a. distance of the source from the objectb. ratio of the object-film distance to the object source distancec. position of the pivot point of the film-source mechanism relative to the objectd. angle through which the film-source mechanism travels
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Gaging84. Isotopic sources have certain advantages over radiation generators for gaging in that:a. an isotopic source yield is stable over the short term, although it does decay with timeb. these sources require more stringent regulation than accelerators to protect personnelc. isotopic sources can be switched off with eased. none of these
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Real-Time Imaging85. Which of the following is not associated with real-time neutron imaging?a. optical couplingb. television camerac. intensifier tubed. dysprosium foil
Image Analysis Techniques86. Assuming 106 electrons associated with a particular feature of an image, the expected variation due to statistical consideration is:a. 100 electronsb. 500 electronsc. 1000 electronsd. 5 000 electrons
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RADIOGRAPIDC INTERPRETATIONImage-Object Relationships87. The best standard for image-object relationship is:a. a comparison standardb. a BPI standardc. a penetrameterd. a type A resolution standard
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Material Processing as It Affects the Use of Item and Test Results: Material Considerations88. Radiographic detection of small amounts of explosivein thick steel will give best contrast if what kind ofneutrons are used?a. coldb. thermalc. epithennald. the optirrium resonance energye. fast
89. Compared to thermal neutrons, in crystallinematerials, cold neutrons are:a. scattered more and absorbed lessb. scattered less and absorbed morec. scattered less and absorbed lessd. scattered more and absorbed more
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Discontinuities: Their Causes and Effects90. Particles of foreign material such as sand or slag that are embedded in the cast metal are indicative of:a. gas holesb. bucklesc. rattailsd. inclusions
91. One lower limit of detectability of microporosity in materials can be caused by:a. an L/D ratio that is too small and/or clumping of the grains of the developed filmb. variation in the neutron source flux at the image planec. an excessively high LID ratiod. none of the above
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Codes, Standards, Specifications, and Procedures92. As stated in the "Standard Method for Determining Image Quality in Thermal Radiographic Testing,“ ASTM E-545-75, which of the following statements are justification for preparing a process control radiograph for verification of specified exposure and sensitivity requirements?
(1) The part setup does not provide for location of image quality indicators to give adequate readings.
(2) The part configuration necessitates a film-to-beam orientation which does not provide satisfactory density measurements for calculation of exposure by collimated thermal neutrons.
(3) The size or setup of parts is such that the background film density variation across the film exceeds 5% (±2.5% variation from the numerical mean of 5 measurements).
(4) The part materials necessitate the use of a conversion screen that responds to neutrons of energies other than thermal in order to give adequate readings.
(5) The size or setup of parts is such that the object-scattered neutron level relative to background density, sensitivity, or facility-scattered neutron exposure requirements is cause for nonconformance.
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a. (1), (2), and/or (3)b. (2), (3), and/or (5)c. (1), (2), and/or (4)d. (1), (2), and/or (5)
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