Orientation-dependent mechanical responses in molybdenum-rhenium alloys evaluated via micro-pillars

Hailong Xu; Li Huang; Wen Zhang; Jing Liang; Xuanqiao Gao; Jianfeng Li

doi:10.1002/eng2.12829

Orientation-dependent mechanical responses in molybdenum-rhenium alloys evaluated via micro-pillars

Hailong Xu, Li Huang, Wen Zhang, Jing Liang, Xuanqiao Gao, Jianfeng Li

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

Textures in molybdenum-rhenium (Mo-Re) alloys are inevitable during thermal fabrication. [110] and [100] are common orientations in Mo-Re alloys and effect mechanical responses. However, orientation dependence of mechanical responses in Mo-Re alloys is not quite clear yet. To clarity this problem, micro-pillar compression tests are conducted in grains with orientation [100] and [110] separately. Orientation-dependent compressive properties are found in Mo-14Re and Mo-42Re (wt.%), but are not found in Mo and Mo-5Re, which may be attributed to activated multi-slip planes as increased Re. Solid solution effect of Re not only relies on orientations, but also on Re contents. Softening effect occurs in both [100] and [110] Mo-5Re. while, strong strengthening effect happens in [110] Mo-14Re and Mo-42Re. Our research clarifies that Mo-Re alloys with [110] orientation/texture could be preferred to obtain good strengthening effect.

源语言	英语
文章编号	e12829
期刊	Engineering Reports
卷	6
期	10
DOI	https://doi.org/10.1002/eng2.12829
出版状态	已出版 - 10月 2024
已对外发布	是

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title = "Orientation-dependent mechanical responses in molybdenum-rhenium alloys evaluated via micro-pillars",

abstract = "Textures in molybdenum-rhenium (Mo-Re) alloys are inevitable during thermal fabrication. [110] and [100] are common orientations in Mo-Re alloys and effect mechanical responses. However, orientation dependence of mechanical responses in Mo-Re alloys is not quite clear yet. To clarity this problem, micro-pillar compression tests are conducted in grains with orientation [100] and [110] separately. Orientation-dependent compressive properties are found in Mo-14Re and Mo-42Re (wt.%), but are not found in Mo and Mo-5Re, which may be attributed to activated multi-slip planes as increased Re. Solid solution effect of Re not only relies on orientations, but also on Re contents. Softening effect occurs in both [100] and [110] Mo-5Re. while, strong strengthening effect happens in [110] Mo-14Re and Mo-42Re. Our research clarifies that Mo-Re alloys with [110] orientation/texture could be preferred to obtain good strengthening effect.",

keywords = "mechanical properties, molybdenum-rhenium alloys, orientation-dependent, pillar compression",

author = "Hailong Xu and Li Huang and Wen Zhang and Jing Liang and Xuanqiao Gao and Jianfeng Li",

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T1 - Orientation-dependent mechanical responses in molybdenum-rhenium alloys evaluated via micro-pillars

AU - Xu, Hailong

AU - Huang, Li

AU - Zhang, Wen

AU - Liang, Jing

AU - Gao, Xuanqiao

AU - Li, Jianfeng

PY - 2024/10

Y1 - 2024/10

N2 - Textures in molybdenum-rhenium (Mo-Re) alloys are inevitable during thermal fabrication. [110] and [100] are common orientations in Mo-Re alloys and effect mechanical responses. However, orientation dependence of mechanical responses in Mo-Re alloys is not quite clear yet. To clarity this problem, micro-pillar compression tests are conducted in grains with orientation [100] and [110] separately. Orientation-dependent compressive properties are found in Mo-14Re and Mo-42Re (wt.%), but are not found in Mo and Mo-5Re, which may be attributed to activated multi-slip planes as increased Re. Solid solution effect of Re not only relies on orientations, but also on Re contents. Softening effect occurs in both [100] and [110] Mo-5Re. while, strong strengthening effect happens in [110] Mo-14Re and Mo-42Re. Our research clarifies that Mo-Re alloys with [110] orientation/texture could be preferred to obtain good strengthening effect.

AB - Textures in molybdenum-rhenium (Mo-Re) alloys are inevitable during thermal fabrication. [110] and [100] are common orientations in Mo-Re alloys and effect mechanical responses. However, orientation dependence of mechanical responses in Mo-Re alloys is not quite clear yet. To clarity this problem, micro-pillar compression tests are conducted in grains with orientation [100] and [110] separately. Orientation-dependent compressive properties are found in Mo-14Re and Mo-42Re (wt.%), but are not found in Mo and Mo-5Re, which may be attributed to activated multi-slip planes as increased Re. Solid solution effect of Re not only relies on orientations, but also on Re contents. Softening effect occurs in both [100] and [110] Mo-5Re. while, strong strengthening effect happens in [110] Mo-14Re and Mo-42Re. Our research clarifies that Mo-Re alloys with [110] orientation/texture could be preferred to obtain good strengthening effect.

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Orientation-dependent mechanical responses in molybdenum-rhenium alloys evaluated via micro-pillars

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