Investigation on Behavior of Elastoplastic Deformation for Ti–48Al–2Cr–2Nb Alloy by Micro-Indentation and FEM-Reverse Algorithm

Zhanwei Yuan; Chunwei Wang; Fuguo Li; Yongbiao Hu; Yajie Guo; Qi Chen; Yingying Wang; Mengle Guo

doi:10.1002/adem.201700097

Investigation on Behavior of Elastoplastic Deformation for Ti–48Al–2Cr–2Nb Alloy by Micro-Indentation and FEM-Reverse Algorithm

Zhanwei Yuan, Chunwei Wang, Fuguo Li, Yongbiao Hu, Yajie Guo, Qi Chen, Yingying Wang, Mengle Guo

材料学院

Chang'an University

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

The Young's modulus, microhardness, and plastic properties of Ti–48Al–2Cr–2Nb alloy were determined using the micro-indentation technique. Oliver–Pharr method was used to calculate Young's modulus and microhardness. The indentation load was inversely correlated to Young's modulus and microhardness. The decreased Young's modulus was associated with indentation damage, while decreasing hardness was due to indentation size effect. The plastic properties were determined using proposed FEM-reverse algorithm, which combine finite element method and Matlab GA optimization tools. We used uniaxial compression test to verify the plastic properties calculated from the indentation tests, and it was found that the stress–strain plots predicted by FEM-reverse algorithm was quite similar to the test results.

源语言	英语
文章编号	1700097
期刊	Advanced Engineering Materials
卷	19
期	8
DOI	https://doi.org/10.1002/adem.201700097
出版状态	已出版 - 8月 2017

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title = "Investigation on Behavior of Elastoplastic Deformation for Ti–48Al–2Cr–2Nb Alloy by Micro-Indentation and FEM-Reverse Algorithm",

abstract = "The Young's modulus, microhardness, and plastic properties of Ti–48Al–2Cr–2Nb alloy were determined using the micro-indentation technique. Oliver–Pharr method was used to calculate Young's modulus and microhardness. The indentation load was inversely correlated to Young's modulus and microhardness. The decreased Young's modulus was associated with indentation damage, while decreasing hardness was due to indentation size effect. The plastic properties were determined using proposed FEM-reverse algorithm, which combine finite element method and Matlab GA optimization tools. We used uniaxial compression test to verify the plastic properties calculated from the indentation tests, and it was found that the stress–strain plots predicted by FEM-reverse algorithm was quite similar to the test results.",

author = "Zhanwei Yuan and Chunwei Wang and Fuguo Li and Yongbiao Hu and Yajie Guo and Qi Chen and Yingying Wang and Mengle Guo",

note = "Publisher Copyright: {\textcopyright} 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim",

year = "2017",

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language = "英语",

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T1 - Investigation on Behavior of Elastoplastic Deformation for Ti–48Al–2Cr–2Nb Alloy by Micro-Indentation and FEM-Reverse Algorithm

AU - Yuan, Zhanwei

AU - Wang, Chunwei

AU - Li, Fuguo

AU - Hu, Yongbiao

AU - Guo, Yajie

AU - Chen, Qi

AU - Wang, Yingying

AU - Guo, Mengle

PY - 2017/8

Y1 - 2017/8

N2 - The Young's modulus, microhardness, and plastic properties of Ti–48Al–2Cr–2Nb alloy were determined using the micro-indentation technique. Oliver–Pharr method was used to calculate Young's modulus and microhardness. The indentation load was inversely correlated to Young's modulus and microhardness. The decreased Young's modulus was associated with indentation damage, while decreasing hardness was due to indentation size effect. The plastic properties were determined using proposed FEM-reverse algorithm, which combine finite element method and Matlab GA optimization tools. We used uniaxial compression test to verify the plastic properties calculated from the indentation tests, and it was found that the stress–strain plots predicted by FEM-reverse algorithm was quite similar to the test results.

AB - The Young's modulus, microhardness, and plastic properties of Ti–48Al–2Cr–2Nb alloy were determined using the micro-indentation technique. Oliver–Pharr method was used to calculate Young's modulus and microhardness. The indentation load was inversely correlated to Young's modulus and microhardness. The decreased Young's modulus was associated with indentation damage, while decreasing hardness was due to indentation size effect. The plastic properties were determined using proposed FEM-reverse algorithm, which combine finite element method and Matlab GA optimization tools. We used uniaxial compression test to verify the plastic properties calculated from the indentation tests, and it was found that the stress–strain plots predicted by FEM-reverse algorithm was quite similar to the test results.

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ER -

Investigation on Behavior of Elastoplastic Deformation for Ti–48Al–2Cr–2Nb Alloy by Micro-Indentation and FEM-Reverse Algorithm

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