Yielding and strain hardening in aluminium single-crystal foils subjected to tension and bending |
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Authors: | Masumi Sato Yuhei Matsuki Ichiro Hayashi |
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Affiliation: | 1. Department of Mechanical Engineering, Graduate School of Science and Engineering, Yamagata University , Jonan 4-3-16, Yonezawa , Yamagata 992-8510 , Japan;2. Yamawa Manufacturing Co., Ltd. , Sasakino-hara , Fukushima 960-8057 , Japan;3. Saxa Inc. , Miyashimo 3-14-15, Sagamihara, Chuo-ku , Kanagawa 252-5221 , Japan;4. Department of Mechanical Engineering, Graduate School of Science and Engineering, Yamagata University , Jonan 4-3-16, Yonezawa , Yamagata 992-8510 , Japan |
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Abstract: | A series of tensile and microbend tests were conducted on aluminium single-crystal foil specimens with different thicknesses ranging from 20 to 90?µm. Two different crystal orientations relative to the tensile direction were considered in the tests: one is an orientation that was excepted to activate at least four slip systems on four different slip planes, and the other is an orientation that was expected to activate only a single-slip system. In the tensile tests, typical size dependence of initial yield strength was observed. The microbend test method was extended to include a reversal of bending direction. Using the curves of bending moment normalized by the square of foil thickness versus surface strain, which were obtained from the reversed bending tests, the total amounts of strain hardening were divided into isotropic and kinematic hardening components. In the microbend tests, a pronounced size-dependent kinematic hardening behaviour was clearly observed; meanwhile, the amounts of isotropic hardening were very small, particularly for the single-slip orientation. |
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Keywords: | size effect strain gradient Bauschinger effect kinematic hardening |
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