Journal
MECHANICS RESEARCH COMMUNICATIONS
Volume 125, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.mechrescom.2022.103989
Keywords
Mean-field homogenization; Misaligned pores; Elastoplastic Eshelby tensor; Elastoplastic strain concentration tensor; constitutive behavior
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This paper presents an approach for the strain concentration tensor for materials with spherical or spheroidal pores using the Eshelby tensor for the elastoplastic medium. It analyzes the influence of pore direction and aspect ratio on the elastoplastic behavior of the material. The method can be easily incorporated into conventional mean-field homogenization schemes and is applicable to porous materials in a homogeneous isotropic matrix.
In this paper, making use of Eshelby tensor for the elastoplastic medium, will be presented an approach for the strain concentration tensor for materials that present spherical or spheroidal pores. The pores are embedded in a homogeneous isotropic matrix which presents an elastoplastic behavior, governed by the von Mises yield criterion and isotropic hardening. In this context, it will also be analyzed the behavior of a porous material through the influence of the extraction of the isotropic part of the anisotropic operator. The effective properties of the material in each incremental step are obtained through the micromechanical Mori-Tanaka's model. Through elastoplastic strain concentration tensor for aligned or misaligned pores, it was observed that the pore direction represents a greater influence on the elastoplastic behavior of the material studied than aspect ratio (length divided by pore diameter). This approach has the advantage of being easily incorporated into conventional mean-field homogenization (MFH) schemes for the case where inclusion stiffness is neglected and presents different geometries or directions in 3D space.
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