Identification of crystalline behavior on macroscopic response and local strain field analysis: Application to alpha zirconium alloys

L. Gélébart; J. Crépin; M. Dexet; M. Sauzay; A. Roos; Rick Holt; Pierre Barberis; Arthur Motta; Kurt Atkinson; Sousan Abolhassani

Identification of crystalline behavior on macroscopic response and local strain field analysis: Application to alpha zirconium alloys

L. Gélébart, J. Crépin, M. Dexet, M. Sauzay, A. Roos, Rick Holt, Pierre Barberis, Arthur Motta, Kurt Atkinson, Sousan Abolhassani

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Scopus citations

Abstract

The purpose of this paper is to present an identification method of the crystalline behavior of a material from a mechanical test performed on a polycrystalline sample. Because of the lack of knowledge about its crystalline behavior, this method is applied to a Zirconium alloy. This identification is based on a finite element modeling of the microstructure, and the results are compared to both the macroscopic and the microscopic experimental results. On the microscopic scale, the plastic strains are obtained using a micro-extensometry technique and the crystalline orientation using an EBSD technique. In order to validate the method, an identification is performed with only two free parameters: the evolutions of the macroscopic and microscopic errors appear to be regular and exhibit a well-defined minimum so that the parameters can be clearly identified.

Original language	English (US)
Title of host publication	Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium
Publisher	American Society for Testing and Materials
Pages	585-603
Number of pages	19
Edition	1467
ISBN (Print)	0803134932, 9780803134935
State	Published - 2005
Event	14th International Symposium on Zirconium in the NUCLEAR INDUSTRY - Stockholm, Sweden Duration: Jun 13 2004 → Jun 17 2004

Publication series

Name	ASTM Special Technical Publication
Number	1467
ISSN (Print)	0066-0558

Other

Other	14th International Symposium on Zirconium in the NUCLEAR INDUSTRY
Country/Territory	Sweden
City	Stockholm
Period	6/13/04 → 6/17/04

All Science Journal Classification (ASJC) codes

General Engineering

Cite this

Gélébart, L., Crépin, J., Dexet, M., Sauzay, M., Roos, A., Holt, R., Barberis, P., Motta, A., Atkinson, K., & Abolhassani, S. (2005). Identification of crystalline behavior on macroscopic response and local strain field analysis: Application to alpha zirconium alloys. In Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium (1467 ed., pp. 585-603). (ASTM Special Technical Publication; No. 1467). American Society for Testing and Materials.

Gélébart, L. ; Crépin, J. ; Dexet, M. et al. / Identification of crystalline behavior on macroscopic response and local strain field analysis : Application to alpha zirconium alloys. Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium. 1467. ed. American Society for Testing and Materials, 2005. pp. 585-603 (ASTM Special Technical Publication; 1467).

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abstract = "The purpose of this paper is to present an identification method of the crystalline behavior of a material from a mechanical test performed on a polycrystalline sample. Because of the lack of knowledge about its crystalline behavior, this method is applied to a Zirconium alloy. This identification is based on a finite element modeling of the microstructure, and the results are compared to both the macroscopic and the microscopic experimental results. On the microscopic scale, the plastic strains are obtained using a micro-extensometry technique and the crystalline orientation using an EBSD technique. In order to validate the method, an identification is performed with only two free parameters: the evolutions of the macroscopic and microscopic errors appear to be regular and exhibit a well-defined minimum so that the parameters can be clearly identified.",

author = "L. G{\'e}l{\'e}bart and J. Cr{\'e}pin and M. Dexet and M. Sauzay and A. Roos and Rick Holt and Pierre Barberis and Arthur Motta and Kurt Atkinson and Sousan Abolhassani",

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booktitle = "Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium",

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note = "14th International Symposium on Zirconium in the NUCLEAR INDUSTRY ; Conference date: 13-06-2004 Through 17-06-2004",

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Gélébart, L, Crépin, J, Dexet, M, Sauzay, M, Roos, A, Holt, R, Barberis, P, Motta, A, Atkinson, K & Abolhassani, S 2005, Identification of crystalline behavior on macroscopic response and local strain field analysis: Application to alpha zirconium alloys. in Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium. 1467 edn, ASTM Special Technical Publication, no. 1467, American Society for Testing and Materials, pp. 585-603, 14th International Symposium on Zirconium in the NUCLEAR INDUSTRY, Stockholm, Sweden, 6/13/04.

Identification of crystalline behavior on macroscopic response and local strain field analysis: Application to alpha zirconium alloys. / Gélébart, L.; Crépin, J.; Dexet, M. et al.
Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium. 1467. ed. American Society for Testing and Materials, 2005. p. 585-603 (ASTM Special Technical Publication; No. 1467).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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T1 - Identification of crystalline behavior on macroscopic response and local strain field analysis

T2 - 14th International Symposium on Zirconium in the NUCLEAR INDUSTRY

AU - Gélébart, L.

AU - Crépin, J.

AU - Dexet, M.

AU - Sauzay, M.

AU - Roos, A.

AU - Holt, Rick

AU - Barberis, Pierre

AU - Motta, Arthur

AU - Atkinson, Kurt

AU - Abolhassani, Sousan

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AB - The purpose of this paper is to present an identification method of the crystalline behavior of a material from a mechanical test performed on a polycrystalline sample. Because of the lack of knowledge about its crystalline behavior, this method is applied to a Zirconium alloy. This identification is based on a finite element modeling of the microstructure, and the results are compared to both the macroscopic and the microscopic experimental results. On the microscopic scale, the plastic strains are obtained using a micro-extensometry technique and the crystalline orientation using an EBSD technique. In order to validate the method, an identification is performed with only two free parameters: the evolutions of the macroscopic and microscopic errors appear to be regular and exhibit a well-defined minimum so that the parameters can be clearly identified.

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BT - Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium

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Gélébart L, Crépin J, Dexet M, Sauzay M, Roos A, Holt R et al. Identification of crystalline behavior on macroscopic response and local strain field analysis: Application to alpha zirconium alloys. In Zirconium in the NUCLEAR INDUSTRY - Fourteenth International Symposium. 1467 ed. American Society for Testing and Materials. 2005. p. 585-603. (ASTM Special Technical Publication; 1467).

Identification of crystalline behavior on macroscopic response and local strain field analysis: Application to alpha zirconium alloys

Abstract

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All Science Journal Classification (ASJC) codes

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