Difference between revisions of "Radiography"

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== Description ==
 
== Description ==
  
Non-destructive examination technique using non-visible radiation sources such as X-rays ([http://cameo.mfa.org/materials/fullrecord.asp?name=x-radiography X-radiography]), gamma rays (gamma radiography), beta rays ([http://cameo.mfa.org/materials/fullrecord.asp?name=beta radiography beta radiography]), or neutrons (neutron radiography). The high energy particles generated by these types of radiation will penetrate different composition/density materials to varying degrees. The resulting variations of transmission of these radiations are recorded by a detector, generaly radiographic film, thus characterizing the internal compositional structure of an object.  
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Non-destructive examination technique using ionising radiation such as X-rays ([[x-radiography|X-radiography]]), gamma rays ([[gamma radiography]]), beta particles ([[beta%20radiography|beta radiography]]), or neutrons ([[neutron radiography]]). These high energy radiation or particles will penetrate different composition/density materials to varying degrees. The resulting variations of transmission of these radiations are recorded by an appropriate detector, mostly a radiographic filmd, thus characterizing the internal compositional structure of an object.
  
See also [http://cameo.mfa.org/materials/fullrecord.asp?name=radiograph radiograph],  [http://cameo.mfa.org/materials/fullrecord.asp?name=beta backscatter radiography electron emisson radiography], and [http://cameo.mfa.org/materials/fullrecord.asp?name=electron transmission radiography electron transmission radiography].
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This technique is widely used. Certainly, the easel paintings studies are those which have got the greater benefit from the technique, giving information relative to the support (canvas, wood panel), comparing the variation in pigment types…, generally associated with the different photographic techniques.
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Radiography is also applied to the examination of statues (metal, stone, wood), ceramics, pottery, glass, jewellery, wooden artefacts, furniture, musical instruments… It permits to characterise the internal compositional structure of an object, to check the homogeneity of the constitutive materials, localise & identify defects like voids, porosities, cracks, slag, corroded areas… It is also efficient for the study of the elaboration process of certain artefacts: foundry type, mechanical assembly, inserts… and for identifying previous restoration or modification. It may also give pertinent information regarding the conservation state: corrosion, cracks, lacks, fragile areas, repairs…
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For many issues, radiography can be efficiently complementary to other nondestructive testing methods like photography, ultrasonic testing, infrared thermography, holography…
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See also [[radiograph|radiograph]],  [[electron%20transmission%20radiography|electron transmission radiography]], [[electron emission radiography]], [[digital radiography]], [[radioscopy]], [[radiographic imaging plate]], [[radiographic flat panel detector]], [[linear diode arrays]], [[tomography]], [[CAT scan]]
  
 
== Synonyms and Related Terms ==
 
== Synonyms and Related Terms ==
  
Radiographie (Deut.); Rntgenaufnahmeverfahren (Deut.); radiographie (Fr.); radiografia (It., Port., Esp.); rntgenfoto (Ned.); X-ray radiography
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Radiographie (Deut.); Röntgenaufnahmeverfahren (Deut.); radiographie (Fr.); radiografia (It., Port., Esp.); röntgenfoto (Ned.); X-ray radiography
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== Resources and Citations ==
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* P.A. Ruault, Radiologie industrielle, 2 vol., Paris, Institute de Soudure (1991)
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* R. Halmshaw, Industrial radiology: theory and practice (2nd edition), Chapman & Hall, London (1995)
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* R.H.Bossi, F. Iddings, G.C. Wheeler, P.O. Moore, Nondestructive testing handbook, vol 4, Radiographic testing, 3rd edition, Columbus OH, ASNT, (2002)
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* Eastman-Kodak, Radiography in modern industry (4th edition), Rochester, (1980): [http://www.kodak.com/eknec/documents/87/0900688a802b3c87/Radiography-in-Modern-Industry.pdf & http://carestream.com/ndt-resources.html link]
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* General Electric Inspection Technologies, Industrial radiography – Image forming techniques: [http://www.ge-mcs.com/download/x-ray/GEIT-30158EN_industrial-radiography-image-forming-techniques.pdf Link]
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* Fujifilm, The fundamental of industrial radiography: [http://www.fujifilm.com/products/ndt/pdf/ix-film_fundamentals_of_industrial_radiography.pdf Link]
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* M. Hours, La radiographie des oeuvres d'art, in Idées et Découvertes, Encyclopaedia Universalis, Paris, 240-243 (1978)
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* M. Hours, Les secrets des chefs d'oeuvre, R. Laffont, Paris (1964)
  
== Authority ==
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* A. Middleton, J. Lang, Radiography of cultural material, 2nd edition, London, Butterworth – Heinemann (2005)
  
* External source or communication, External source or communication Comment: Jean-Louis Boutaine, 20/06/2007
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* A. Gilardoni, L. Ascani Orsini, R. Ascani Orsini, M. Taccani Gilardoni & al., X-rays in art - I raggi X nell'arte (2nd edition), Gilardoni, Mandello Lario (1984)
  
* R. J. Gettens, G.L. Stout, R. J. Gettens, G.L. Stout, ''Painting Materials, A Short Encyclopaedia'', Dover Publications, New York, 1966
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* D. Graham, T. Eddie, X-ray techniques in art galleries and museums, A. Hilger, Bristol (1985)
  
* ''Encyclopedia Britannica'', http://www.britannica.com  Comment: "radiography" Encyclopdia Britannica Premium Service. [Accessed 18 Oct. 2005].
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* R. J. Gettens, G.L. Stout, ''Painting Materials, A Short Encyclopaedia'', Dover Publications, New York, 1966
  
* Wikipedia, the free encyclopedia, at http://www.wikipedia.com  Comment: http://en.wikipedia.org/wiki/Radiography (Accessed Nov. 9, 2005)
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* ''Encyclopedia Britannica'', http://www.britannica.com  Comment: "radiography" [Accessed 18 Oct. 2005].
  
 
* ''The American Heritage Dictionary'' or ''Encarta'', via Microsoft Bookshelf 98, Microsoft Corp., 1998
 
* ''The American Heritage Dictionary'' or ''Encarta'', via Microsoft Bookshelf 98, Microsoft Corp., 1998

Latest revision as of 09:38, 29 October 2020

X-ray image

Description

Non-destructive examination technique using ionising radiation such as X-rays (X-radiography), gamma rays (Gamma radiography), beta particles (Beta radiography), or neutrons (Neutron radiography). These high energy radiation or particles will penetrate different composition/density materials to varying degrees. The resulting variations of transmission of these radiations are recorded by an appropriate detector, mostly a radiographic filmd, thus characterizing the internal compositional structure of an object.

This technique is widely used. Certainly, the easel paintings studies are those which have got the greater benefit from the technique, giving information relative to the support (canvas, wood panel), comparing the variation in pigment types…, generally associated with the different photographic techniques.

Radiography is also applied to the examination of statues (metal, stone, wood), ceramics, pottery, glass, jewellery, wooden artefacts, furniture, musical instruments… It permits to characterise the internal compositional structure of an object, to check the homogeneity of the constitutive materials, localise & identify defects like voids, porosities, cracks, slag, corroded areas… It is also efficient for the study of the elaboration process of certain artefacts: foundry type, mechanical assembly, inserts… and for identifying previous restoration or modification. It may also give pertinent information regarding the conservation state: corrosion, cracks, lacks, fragile areas, repairs…

For many issues, radiography can be efficiently complementary to other nondestructive testing methods like photography, ultrasonic testing, infrared thermography, holography…

See also Radiograph, Electron transmission radiography, Electron emission radiography, Digital radiography, Radioscopy, Radiographic imaging plate, Radiographic flat panel detector, Linear diode arrays, Tomography, CAT scan

Synonyms and Related Terms

Radiographie (Deut.); Röntgenaufnahmeverfahren (Deut.); radiographie (Fr.); radiografia (It., Port., Esp.); röntgenfoto (Ned.); X-ray radiography

Resources and Citations

  • P.A. Ruault, Radiologie industrielle, 2 vol., Paris, Institute de Soudure (1991)
  • R. Halmshaw, Industrial radiology: theory and practice (2nd edition), Chapman & Hall, London (1995)
  • R.H.Bossi, F. Iddings, G.C. Wheeler, P.O. Moore, Nondestructive testing handbook, vol 4, Radiographic testing, 3rd edition, Columbus OH, ASNT, (2002)
  • General Electric Inspection Technologies, Industrial radiography – Image forming techniques: Link
  • Fujifilm, The fundamental of industrial radiography: Link
  • M. Hours, La radiographie des oeuvres d'art, in Idées et Découvertes, Encyclopaedia Universalis, Paris, 240-243 (1978)
  • M. Hours, Les secrets des chefs d'oeuvre, R. Laffont, Paris (1964)
  • A. Middleton, J. Lang, Radiography of cultural material, 2nd edition, London, Butterworth – Heinemann (2005)
  • A. Gilardoni, L. Ascani Orsini, R. Ascani Orsini, M. Taccani Gilardoni & al., X-rays in art - I raggi X nell'arte (2nd edition), Gilardoni, Mandello Lario (1984)
  • D. Graham, T. Eddie, X-ray techniques in art galleries and museums, A. Hilger, Bristol (1985)
  • R. J. Gettens, G.L. Stout, Painting Materials, A Short Encyclopaedia, Dover Publications, New York, 1966
  • The American Heritage Dictionary or Encarta, via Microsoft Bookshelf 98, Microsoft Corp., 1998