Mechanical, microstructural behaviour and modelling of dual phase steels under complex deformation paths
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- Title
- Mechanical, microstructural behaviour and modelling of dual phase steels under complex deformation paths
- Authors
- Liao, J.; Sousa, J.A.; Lopes, A.B.; Xue, X.; Barlat, F.; Pereira, A.B.
- Date Issued
- 2017-06
- Publisher
- Elsevier Ltd
- Abstract
- This paper aims to identify the mechanisms associated to the transient hardening behaviour of dual phase steels under strain path changes, and to capture the observed material behaviours with appropriate constitutive models. First, three DP steel sheets with different amounts of martensite were tested under monotonic and various strain path changes. Second, microstructural analysis of the materials before and after strain path change were performed by means of SEM, TEM, and EBSD. The contribution of texture evolution on the mechanical behaviour was also assessed using the visco-plastic self-consistent (VPSC) polycrystal plasticity model. Transient hardening behaviour and permanent softening were observed in the tension-tension tests for all the studied DP steels. These behaviours were explained by the development of strain gradients during the first load resulting from strain accommodation incompatibilities between the ferrite and martensite phases. For the purpose of describing the macroscopic material behaviours, the enhanced homogeneous anisotropic hardening (HAH) model (Barlat et al., 2014) integrated with the Yld2000-2d anisotropic yield function were adopted for constitutive modelling. The simulation results were discussed in view of the microstructure evolution. ? 2016 Elsevier Ltd.
- Keywords
- Anisotropy; Constitutive models; Hardening; Martensite; Materials properties; Mechanical testing; Microstructure; Tensile testing; Anisotropic hardenings; Anisotropic material; Anisotropic yield functions; C. Characteristics; Constitutive behaviour; Micro-structure evolutions; Microstructural analysis; Visco-plastic self-consistent; Martensitic steel
- URI
- https://oasis.postech.ac.kr/handle/2014.oak/50641
- DOI
- 10.1016/j.ijplas.2016.03.010
- ISSN
- 0749-6419
- Article Type
- Article
- Citation
- International Journal of Plasticity, vol. 93, page. 269 - 290, 2017-06
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