Analysis on shear band development under large strain torsion of amorphous glassy polymers

IF 4.4 2区 工程技术 Q1 MECHANICS
Kaixing Li , Wujiao Xu , Peidong Wu , Yonggang Liu
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引用次数: 0

Abstract

Unlike the shear band development of metals generally regarded as the precursor to failure, the shear banding process in amorphous glassy polymers is known to influence both the strengthening and fracturing behaviors. Complementary to the previous experimental work in the literature on the shear band development under torsion under limited cases, the finite element (FE) analysis has been conducted to investigate the general shear banding behaviors in terms of the initiation and propagation in more detail. The FE model has been established by incorporating the Boyce-Parks-Argon (BPA) constitutive model with the full-network modification via a user material subroutine in ABAQUS. A series of nondimensional quantities were used to discuss the mesh sensitivity and the effects of predefined imperfections, specimen geometry, and torsion mode. Besides, by altering the extents of the intrinsic material softening and the strain hardening, the shear banding behaviors of typical materials under typical temperature and strain rate conditions are equivalently investigated. The validity of the simulation has been qualitatively validated by directly comparing with the experimental results from the literature.

无定形玻璃态聚合物在大应变扭转下的剪切带发展分析
一般认为金属的剪切带发展是导致破坏的前兆,与此不同的是,无定形玻璃态聚合物的剪切带发展过程会同时影响强化和断裂行为。作为对以往文献中关于有限情况下扭转剪切带发展的实验研究的补充,我们进行了有限元(FE)分析,以更详细地研究剪切带在起始和传播方面的一般行为。有限元模型是通过 ABAQUS 中的一个用户材料子程序,将 Boyce-Parks-Argon (BPA) 构成模型与全网络修改相结合而建立的。使用一系列非尺寸量来讨论网格敏感性以及预定义缺陷、试样几何形状和扭转模式的影响。此外,通过改变材料固有软化和应变硬化的程度,等效地研究了典型材料在典型温度和应变速率条件下的剪切带行为。通过与文献中的实验结果直接比较,对模拟的有效性进行了定性验证。
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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来源期刊
CiteScore
7.00
自引率
7.30%
发文量
275
审稿时长
48 days
期刊介绍: The European Journal of Mechanics endash; A/Solids continues to publish articles in English in all areas of Solid Mechanics from the physical and mathematical basis to materials engineering, technological applications and methods of modern computational mechanics, both pure and applied research.
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