A dislocation-mechanics-based constitutive model for dynamic strain aging |
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Authors: | Guo Yangbo Tang Zhiping Cheng Jingyi |
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Affiliation: | (1) Department of Modern Mechanics, University of Science and Technology of China, 230027 Hefei, China |
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Abstract: | Dynamic strain aging (DSA) is an important phenomenon in solute hardened metals and seriously affects the mechanical properties of metals. DSA is generally induced by the interaction between the moving dislocations and the mobile solute atoms. In this paper, only the interaction between moving dislocations and mobile solute atoms in a dislocation core area (core atmosphere) will be taken into account. To establish the constitutive model which can describe the DSA phenomenon, we improved the Zerilli-Armstrong dislocation-mechanics-based thermal viscoplastic constitutive relation, and added the effect of the interaction between the moving dislocations and core atmosphere. Because the constitutive relation established is based on the Zerilli-Armstrong relation, it can describe not only the DSA phenomenon, but also the mechanical behavior of metals over a broad range of temperatures (77K∼1000K) and strain rate (10−4∼104 s−1). The model prediction for tantalum fits well with the experimental data. Projected supported by the Chinese Academy of Sciences and the High Technical Project. |
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Keywords: | dynamic strain aging solute atoms core atmosphere tantalum |
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