Author M. AbdelKarim
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M. Mizuno and N. Ohno\= Department of Mechanical Engineering
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Nagoya University Chikusaku
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Nagoya 4648603
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Japan Manuscript received 18 October 1998
金属学报(英文版)
In the previous paper, in order to express steadystate ratchetting, the present authors extended the cyclic plasticity model proposed by Ohno and Wang (1993), and the validity of the extended model was discussed on the basis of uniaxial ratchetting experiments of 316FR steel at room temperature. In the present paper, the validity of the extended model is discussed further on the basis of nonproportional experiments of IN738LC at 850 such as multiaxial ratchetting, multiaxial cyclic stress relaxation, circular cyclic straining with strain hold, and so on. Predictions based on the OhnoWang model as well as the ArmstrongFrederick model are also given for the sake of comparison. It is shown that the extended model is capable of simulating the nonproportional experiments accurately, and especially that the extended model can predict much less steadystate ratchetting than the ArmstrongFrederick model. It is also shown that the extended model provides almost the same predictions as the OhnoWang and th
关键词:
dynamic recovery
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