基于微观组织的SiCp/2009Al复合材料变形与断裂双尺度模拟

IF 0.9 4区 材料科学
Zhiyi Zhang, Xiaohui Han, Yin Ma, Ying Kan, Yunlu Jiang, Huaining Chen
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引用次数: 0

摘要

准确预测复合材料的成形性对材料的设计和零件工艺参数的优化具有重要意义。本文提出了一种基于微观组织的双尺度模型,用于分析SiC p /2009Al复合材料镦粗过程中的变形行为。基于微观结构的微尺度模型,通过引入正应力准则、最大应力比准则和剪切断裂模型,在宏观尺度模型的基础上得到位移边界条件,可以预测颗粒开裂、界面破坏和基体断裂。结果表明:单向镦粗过程中,裂纹首先在基体中萌生,然后在基体、界面和颗粒中扩展;与单向镦粗相比,双向镦粗使裂纹分布更均匀,最大应变更小,防止了基体裂纹的萌生。模拟结果与实验观察到的变形和断裂模式吻合较好,为优化复合材料的塑性加工和设计提供了有效途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microstructure-Based Two-Scale Simulation of Deformation and Fracture of SiCp/2009Al Composite
Accurately predicting the formability of composites is quite important for designing the materials and optimizing the processing parameters of such components. This paper presents a microstructure-based two-scale model to analyze the deformation behavior of the SiC p /2009Al composite during upsetting. The microstructure-based micro-scale model with a displacement boundary condition that was obtained from a macro-scale model can predict particle cracking, interface failure and matrix fracture by introducing the normal stress criterion, the maximum stress ratio criterion and the shear fracture model. The simulation results show that, during unidirectional upsetting, the crack initiates in the matrix, and then propagates in the matrix, the interface and the particle. Comparing with the unidirectional upsetting, the bidirectional upsetting results in a more uniform stain distribution and a smaller maximum strain, which prevent the initiation of the crack in the matrix. The simulation results compare well with the deformation and fracture patterns observed in experiment, indicating an effective way to optimise the plastic working and designing of composites.
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来源期刊
Science of Advanced Materials
Science of Advanced Materials NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
自引率
11.10%
发文量
98
审稿时长
4.4 months
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