Constitutive modelling and validating of annealed copper under various stress states, strain rates and temperatures

Yutian Du, Zejian Xu*, Hongzhi Hu, Mengyu Su, Ang Hu, Fenglei Huang

*此作品的通讯作者

科研成果: 期刊稿件文章同行评审

摘要

Metallic materials and structures are often subjected to a wide range of strain, strain rate, temperature and stress state during the engineering application. In order to study the plastic and deformation characteristics of metallic materials under complex stress states, it is necessary to use a constitutive model that considers the effects of stress states. Based on shear specimens suitable for hydraulic Instron testing machines and Hopkinson bar systems (SHPB and SHTB), the compression-shear and tension-shear specimens are designed to achieve complex stress states. Through a combination of test and parallel finite element simulation, stress–strain curves of the material under various stress states were obtained. Additionally, mechanical property tests were conducted on specimens under typical stress states (uniaxial compression, uniaxial tension, and shear) at a wide range of strain rates and temperatures. To describe the plastic mechanical behavior of materials, a new plastic constitutive model considering temperature, strain rate, and stress state is proposed. Then the model was embedded into the ABAQUS/Explicit finite element software through the VUMAT user material subroutine for numerical simulation. The performance of the new model was systematically compared and analyzed with that of Johnson-Cook model and Xu et al.’s model. The ability of the prediction of plastic deformation in Taylor impact test was evaluated for different models. The results show that the new constitutive model is suitable for predicting the impact deformation associated with complex strain rates, temperatures, and stress states.

源语言英语
文章编号113312
期刊International Journal of Solids and Structures
313
DOI
出版状态已出版 - 1 5月 2025

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Du, Y., Xu, Z., Hu, H., Su, M., Hu, A., & Huang, F. (2025). Constitutive modelling and validating of annealed copper under various stress states, strain rates and temperatures. International Journal of Solids and Structures, 313, 文章 113312. https://doi.org/10.1016/j.ijsolstr.2025.113312