Prediction of flow stress and surface roughness of stainless steel sheets considering an inhomogeneous microstructure

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• 作者：Cong Hanh Pham ; Sandrine Thuillier ; ^{sandrine.thuillier@univ-ubs.fr" class="auth_mail" title="E-mail the corresponding author} ; Pierre-Yves Manach
• 关键词：Ultra-thin metallic sheet ; Surface roughness ; Grain size ; Material inhomogeneity ; Mechanical behavior
• 刊名：Materials Science & Engineering A
• 出版年：2016
• 出版时间：15 December 2016
• 年：2016
• 卷：678
• 期：Complete
• 页码：377-388
• 全文大小：1992 K

文摘

The aim of this study is to model the mechanical behavior of ultra-thin sheets of stainless steel taking into account the heterogeneous distribution of the mechanical properties of the grains. EBSD analysis and micro-hardness measurements are performed to characterize the grain size and shape as well as the local hardness distribution. A finite element model of a representative volume, based on the grain size distribution and Vorono polyhedrons, is developed using the dedicated free software Neper and the material inhomogeneity is introduced via a discrete distribution of the flow stress of the grains. Four different flow stress distributions are considered, by changing either the flow stress range or the corresponding volume fractions. A uniaxial tensile test of the representative volume is simulated and compared to experimental data. Then, the influence of the grain heterogeneity on the hysteresis of loading-unloading sequences in tension and on the Bauschinger effect in simple shear is investigated numerically and compared with experiments. In particular, it is shown that the type of the flow stress distribution influences significantly the magnitude of the Bauschinger effect. Finally, the surface roughness is characterized numerically both in tension and simple shear and is shown to reproduce faithfully the experimental values.