Modelling strain localization in Ti–6Al–4V at high loading rate: a phenomenological approach

Philosophical Transactions of the Royal Society A Pub Date : 2019-11-25 DOI:10.1098/rsta.2019.0105

R. Zhou, K. Pang, A. Bisht, A. Roy, S. Suwas, V. Silberschmidt

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引用次数: 4

Abstract

A phenomenological approach, based on a combination of a damage mechanism and a crystal plasticity model, is proposed to model a process of strain localization in Ti–6AI–4V at a high strain rate of 103 s−1. The proposed model is first calibrated employing a three-dimensional representative volume element model. The calibrated parameters are then employed to investigate the process of onset of strain localization in the studied material. A suitable mesh size is chosen for the proposed model by implementing a mesh-sensitivity study. The influence of boundary conditions on the initiation of the strain localization is also studied. A variation of crystallographic orientation in the studied material after the deformation process is characterized, based on results for different boundary conditions. The study reveals that the boundary conditions significantly influence the formation of shear bands as well as the variation of crystallographic orientation in the studied material. Results also indicate that the onset of strain localization can affect considerably the material's behaviour. This article is part of the theme issue ‘Modelling of dynamic phenomena and localization in structured media (part 2)’.

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高加载速率下Ti-6Al-4V的应变局部化建模:一种现象学方法

提出了一种结合损伤机制和晶体塑性模型的现象学方法来模拟高应变速率(103 s−1)下Ti-6AI-4V的应变局部化过程。首先采用三维代表性体元模型对模型进行标定。校正后的参数用于研究材料中应变局部化的发生过程。通过网格敏感性研究，为模型选择合适的网格尺寸。研究了边界条件对应变局部化开始的影响。根据不同边界条件下的结果，表征了材料在变形过程中晶体取向的变化。研究表明，边界条件对材料中剪切带的形成和晶体取向的变化有显著影响。结果还表明，应变局部化的开始可以显著影响材料的行为。本文是主题“结构化媒体中动态现象的建模和定位(第二部分)”的一部分。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Philosophical Transactions of the Royal Society A

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