Microstructure characterization of textured materials considering extinction phenomenon

T. Kryshtab, A. Cadena Arenas, G. Gómez Gasga, A. De Ita De La Torre, A. Kryvko

Research output: Contribution to conferencePaperResearch

Abstract

Texture is defined by the measured polar figure (PF) obtained from the integrated intensity of diffracted X-rays. The integrated intensity can be affected both by the pole density (PD) and by the phenomenon of extinction that reduces the PD and cannot be avoided. PF does not contain information about grain microstructure, but parameters of the primary and secondary extinction are related to the crystal microstructural features. Recently an original X-ray diffraction method was proposed for correction of PD and separation and determination of the primary and secondary extinction parameters for characterization of textured aluminum samples. This problem was solved using some assumptions. The parameter of the primary extinction can be used for calculation of domain size. The secondary extinction parameter is related to the average domain disorientation angle that depends on dislocation density in domain boundaries. Extinction parameters were used for microstructure evaluation of cold rolled nickel with and without annealing at 600°C The validity of the proposed assumption for nickel samples was evaluated in terms of the extinction length. The corrected pole density and the parameters of primary and secondary extinction were calculated using the first order reflection for two different wavelengths (Cu and Co) and the second order reflection for one of the used wavelengths. In annealed samples the primary and secondary extinction were presented simultaneously. According to the obtained parameters of extinction the microstructure of textured nickel was evaluated. © Materials Research Society.
Original languageAmerican English
Pages131-136
Number of pages6
StatePublished - 1 Dec 2010
EventMaterials Research Society Symposium Proceedings -
Duration: 1 Dec 2010 → …

Conference

ConferenceMaterials Research Society Symposium Proceedings
Period1/12/10 → …

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Poles
extinction
Nickel
microstructure
Microstructure
poles
Wavelength
Aluminum
nickel
Textures
Annealing
X ray diffraction
X rays
Crystals
disorientation
wavelengths
x rays
textures
aluminum
annealing

Cite this

Kryshtab, T., Cadena Arenas, A., Gómez Gasga, G., De Ita De La Torre, A., & Kryvko, A. (2010). Microstructure characterization of textured materials considering extinction phenomenon. 131-136. Paper presented at Materials Research Society Symposium Proceedings, .
Kryshtab, T. ; Cadena Arenas, A. ; Gómez Gasga, G. ; De Ita De La Torre, A. ; Kryvko, A. / Microstructure characterization of textured materials considering extinction phenomenon. Paper presented at Materials Research Society Symposium Proceedings, .6 p.
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abstract = "Texture is defined by the measured polar figure (PF) obtained from the integrated intensity of diffracted X-rays. The integrated intensity can be affected both by the pole density (PD) and by the phenomenon of extinction that reduces the PD and cannot be avoided. PF does not contain information about grain microstructure, but parameters of the primary and secondary extinction are related to the crystal microstructural features. Recently an original X-ray diffraction method was proposed for correction of PD and separation and determination of the primary and secondary extinction parameters for characterization of textured aluminum samples. This problem was solved using some assumptions. The parameter of the primary extinction can be used for calculation of domain size. The secondary extinction parameter is related to the average domain disorientation angle that depends on dislocation density in domain boundaries. Extinction parameters were used for microstructure evaluation of cold rolled nickel with and without annealing at 600°C The validity of the proposed assumption for nickel samples was evaluated in terms of the extinction length. The corrected pole density and the parameters of primary and secondary extinction were calculated using the first order reflection for two different wavelengths (Cu and Co) and the second order reflection for one of the used wavelengths. In annealed samples the primary and secondary extinction were presented simultaneously. According to the obtained parameters of extinction the microstructure of textured nickel was evaluated. {\circledC} Materials Research Society.",
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Kryshtab, T, Cadena Arenas, A, Gómez Gasga, G, De Ita De La Torre, A & Kryvko, A 2010, 'Microstructure characterization of textured materials considering extinction phenomenon' Paper presented at Materials Research Society Symposium Proceedings, 1/12/10, pp. 131-136.

Microstructure characterization of textured materials considering extinction phenomenon. / Kryshtab, T.; Cadena Arenas, A.; Gómez Gasga, G.; De Ita De La Torre, A.; Kryvko, A.

2010. 131-136 Paper presented at Materials Research Society Symposium Proceedings, .

Research output: Contribution to conferencePaperResearch

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T1 - Microstructure characterization of textured materials considering extinction phenomenon

AU - Kryshtab, T.

AU - Cadena Arenas, A.

AU - Gómez Gasga, G.

AU - De Ita De La Torre, A.

AU - Kryvko, A.

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N2 - Texture is defined by the measured polar figure (PF) obtained from the integrated intensity of diffracted X-rays. The integrated intensity can be affected both by the pole density (PD) and by the phenomenon of extinction that reduces the PD and cannot be avoided. PF does not contain information about grain microstructure, but parameters of the primary and secondary extinction are related to the crystal microstructural features. Recently an original X-ray diffraction method was proposed for correction of PD and separation and determination of the primary and secondary extinction parameters for characterization of textured aluminum samples. This problem was solved using some assumptions. The parameter of the primary extinction can be used for calculation of domain size. The secondary extinction parameter is related to the average domain disorientation angle that depends on dislocation density in domain boundaries. Extinction parameters were used for microstructure evaluation of cold rolled nickel with and without annealing at 600°C The validity of the proposed assumption for nickel samples was evaluated in terms of the extinction length. The corrected pole density and the parameters of primary and secondary extinction were calculated using the first order reflection for two different wavelengths (Cu and Co) and the second order reflection for one of the used wavelengths. In annealed samples the primary and secondary extinction were presented simultaneously. According to the obtained parameters of extinction the microstructure of textured nickel was evaluated. © Materials Research Society.

AB - Texture is defined by the measured polar figure (PF) obtained from the integrated intensity of diffracted X-rays. The integrated intensity can be affected both by the pole density (PD) and by the phenomenon of extinction that reduces the PD and cannot be avoided. PF does not contain information about grain microstructure, but parameters of the primary and secondary extinction are related to the crystal microstructural features. Recently an original X-ray diffraction method was proposed for correction of PD and separation and determination of the primary and secondary extinction parameters for characterization of textured aluminum samples. This problem was solved using some assumptions. The parameter of the primary extinction can be used for calculation of domain size. The secondary extinction parameter is related to the average domain disorientation angle that depends on dislocation density in domain boundaries. Extinction parameters were used for microstructure evaluation of cold rolled nickel with and without annealing at 600°C The validity of the proposed assumption for nickel samples was evaluated in terms of the extinction length. The corrected pole density and the parameters of primary and secondary extinction were calculated using the first order reflection for two different wavelengths (Cu and Co) and the second order reflection for one of the used wavelengths. In annealed samples the primary and secondary extinction were presented simultaneously. According to the obtained parameters of extinction the microstructure of textured nickel was evaluated. © Materials Research Society.

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Kryshtab T, Cadena Arenas A, Gómez Gasga G, De Ita De La Torre A, Kryvko A. Microstructure characterization of textured materials considering extinction phenomenon. 2010. Paper presented at Materials Research Society Symposium Proceedings, .