Deformation Mechanism of AZ31B Magnesium Alloy Under Different Loading Paths

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Abstract

Deformation and texture evolution of AZ31B magnesium (Mg) alloy sheet under uniaxial tension, compression, and reverse loading after different pre-strain (compression and tension) were investigated experimentally. The results indicate that the pre-compressive strain remarkably affects the reverse tensile yield stress and the width of the detwinning-dominant stage during inverse tension process. Similar to stress–strain curve of the uniaxial compression, the curve of reverse tensile yield value also has ‘S’ shape, and its minimum value is only 38 MPa. The relationship between pre-compressive strain and the width of detwinning-dominant stage presents a linear growth, and the greater the precompressive strain is, the smaller the strain hardening rate of the detwinning-slip-dominant stage is. Compared with the reverse tension under pre-compression, the influence of the pre-tension deformation on the deformation mechanism of subsequent compression is relatively simple. With the increase in pre-tension strain, the yield stress of the reverse loading is rising.

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APA

Chen, S. F., Zheng, L., Zhang, S. H., Song, H. W., & Cheng, M. (2015). Deformation Mechanism of AZ31B Magnesium Alloy Under Different Loading Paths. Acta Metallurgica Sinica (English Letters), 28(12), 1426–1434. https://doi.org/10.1007/S40195-015-0342-5

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