Finite element simulation of the effect of particle shape and thermal residual stress on the tensile properties of NbCp/Fe composites

IF 3.7 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Today Communications Pub Date : 2024-09-08 DOI:10.1016/j.mtcomm.2024.110381
Nana Zhao, Zhitao Zhang, Congcong Ren, Zhen Cui, Fangxia Ye
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Abstract

To optimize the microstructure and properties of NbC/Fe composites, this study considered factors such as load transfer, plastic strain, matrix damage, and interface debonding. A two-dimensional finite element model was constructed using ABAQUS software. Random adsorption algorithm was used to realize the random distribution of particles within the representative volume element, and interface damage was described using a cohesive zone model. The effects of particle shape and thermal residual stress on the tensile properties of NbC/Fe composites were investigated. The results show that circular particles uniformly distribute the stress during the tensile process, effectively enhancing the tensile properties of the composites. Conversely, triangular particles, with obvious sharp corners, reduce their tensile properties, particularly in the presence of thermal residual stresses, which further aggravates the stress concentration between the particles and the matrix. This leads to a decrease in the strength and toughness of the material.
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颗粒形状和热残余应力对 NbCp/Fe 复合材料拉伸性能影响的有限元模拟
为了优化 NbC/Fe 复合材料的微观结构和性能,本研究考虑了载荷传递、塑性应变、基体损伤和界面脱粘等因素。使用 ABAQUS 软件构建了二维有限元模型。采用随机吸附算法实现了颗粒在代表体积元素内的随机分布,并使用内聚区模型描述了界面损伤。研究了颗粒形状和热残余应力对 NbC/Fe 复合材料拉伸性能的影响。结果表明,圆形颗粒能在拉伸过程中均匀分布应力,有效提高复合材料的拉伸性能。相反,带有明显尖角的三角形颗粒则会降低其拉伸性能,尤其是在存在热残余应力的情况下,这会进一步加剧颗粒与基体之间的应力集中。这导致材料的强度和韧性降低。
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来源期刊
Materials Today Communications
Materials Today Communications Materials Science-General Materials Science
CiteScore
5.20
自引率
5.30%
发文量
1783
审稿时长
51 days
期刊介绍: Materials Today Communications is a primary research journal covering all areas of materials science. The journal offers the materials community an innovative, efficient and flexible route for the publication of original research which has not found the right home on first submission.
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