Tensile specimen geometry and the constitutive behavior of Zircaloy-4

O. N. Pierron; D. A. Koss; A. T. Motta

doi:10.1016/S0022-3115(02)01554-4

Tensile specimen geometry and the constitutive behavior of Zircaloy-4

O. N. Pierron, D. A. Koss, A. T. Motta

Research output: Contribution to journal › Article › peer-review

29 Scopus citations

Abstract

The influence of tensile specimen geometry on the deformation behavior of flat Zircaloy-4 tensile specimens has been examined for gauge length-to-width ratios that range from 1:1 to 4:1. Specimen geometry has only minor effects on the values of the yield stress, tensile strength, apparent uniform strain at maximum load, and strain-hardening exponent. However, in all geometries but the 4:1 configuration, diffuse necking occurs before maximum load. As a result, strain distributions at maximum load are uniform only in the 4:1 geometry. The elongation to failure is also affected by specimen geometry with the shorter gauge sections exhibiting much higher total elongation values, due in large part to the concomitant specimen necking behavior.

Original language	English (US)
Pages (from-to)	257-261
Number of pages	5
Journal	Journal of Nuclear Materials
Volume	312
Issue number	2-3
DOIs	https://doi.org/10.1016/S0022-3115(02)01554-4
State	Published - Feb 2003

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
General Materials Science
Nuclear Energy and Engineering

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10.1016/S0022-3115(02)01554-4

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title = "Tensile specimen geometry and the constitutive behavior of Zircaloy-4",

abstract = "The influence of tensile specimen geometry on the deformation behavior of flat Zircaloy-4 tensile specimens has been examined for gauge length-to-width ratios that range from 1:1 to 4:1. Specimen geometry has only minor effects on the values of the yield stress, tensile strength, apparent uniform strain at maximum load, and strain-hardening exponent. However, in all geometries but the 4:1 configuration, diffuse necking occurs before maximum load. As a result, strain distributions at maximum load are uniform only in the 4:1 geometry. The elongation to failure is also affected by specimen geometry with the shorter gauge sections exhibiting much higher total elongation values, due in large part to the concomitant specimen necking behavior.",

author = "Pierron, {O. N.} and Koss, {D. A.} and Motta, {A. T.}",

note = "Funding Information: We would like to thank Rob Daum and Mike Billone for technical discussions and Ralph Meyer for his continued encouragement. This research was supported by the Fermi Consortium. Copyright: Copyright 2008 Elsevier B.V., All rights reserved.",

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AU - Pierron, O. N.

AU - Koss, D. A.

AU - Motta, A. T.

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N2 - The influence of tensile specimen geometry on the deformation behavior of flat Zircaloy-4 tensile specimens has been examined for gauge length-to-width ratios that range from 1:1 to 4:1. Specimen geometry has only minor effects on the values of the yield stress, tensile strength, apparent uniform strain at maximum load, and strain-hardening exponent. However, in all geometries but the 4:1 configuration, diffuse necking occurs before maximum load. As a result, strain distributions at maximum load are uniform only in the 4:1 geometry. The elongation to failure is also affected by specimen geometry with the shorter gauge sections exhibiting much higher total elongation values, due in large part to the concomitant specimen necking behavior.

AB - The influence of tensile specimen geometry on the deformation behavior of flat Zircaloy-4 tensile specimens has been examined for gauge length-to-width ratios that range from 1:1 to 4:1. Specimen geometry has only minor effects on the values of the yield stress, tensile strength, apparent uniform strain at maximum load, and strain-hardening exponent. However, in all geometries but the 4:1 configuration, diffuse necking occurs before maximum load. As a result, strain distributions at maximum load are uniform only in the 4:1 geometry. The elongation to failure is also affected by specimen geometry with the shorter gauge sections exhibiting much higher total elongation values, due in large part to the concomitant specimen necking behavior.

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Tensile specimen geometry and the constitutive behavior of Zircaloy-4

Abstract

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