Numerical Analysis of Residual Stresses Effect in Multi-materials

S. Ramdoum
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Abstract

In this study, the effect of mechanical and physical properties of the metal and temperature is highlighted. The purpose of this study is to analyze the effect of these stresses on multi-materials. This work aimed to conduct a three-dimensional numerical study by the finite element method on the levels and distributions of the stresses in the Al2O3/NI/HAYNES multi-materials. These stresses of thermal and mechanical origin are generally detrimental to the service life of multi-material. ? The use of numerical resolution by finite element method is the most suitable for complex mechanical problems. It allows a more in-depth analysis of all points of the structure. In this study, a fundamental tool was constructed to resolve the mechanical behavior of materials subjected to complex solicitations. Therefore, the ABAQUS calculation code version 6.14 was used to analyze the residual stresses. The aim of this study is to analyze the effect of the residual stresses on the multimaterials assemblies. By interpreting the results in terms of stress variation, we identified the areas at risk; in particular, the nature of a joint effect plays a decisive role in the assembly of the right material in its mechanical resistance. This nature is defined in terms of stiffness (Young's modulus) and differential expansion (coefficient of thermal expansion). using finite element method (integral contour) in the numerical simulation software abaqus version 6.14 The presence of strong residual stresses can constitute a risk of damage to several materials. The difference between the coefficients of thermal expansion of the two materials (metal and ceramic) linked together induces, in these two constituents, normal internal stresses. This difference determines the level and distribution of these constraints. Moreover, the sign of this difference determines the state of the normal stresses. The results interpreted in terms of damage, we identified risk areas. in particular the effect of the seal which allows a strong relaxation of the residual stresses. No potential conflict of interest was reported by the authors.
多材料中残余应力效应的数值分析
在这项研究中,强调了金属的机械和物理性能以及温度的影响。本研究的目的是分析这些应力对多种材料的影响。本文采用有限元方法对Al2O3/NI/HAYNES复合材料的应力水平和分布进行了三维数值研究。这些热应力和机械应力通常对复合材料的使用寿命有害。采用有限元方法进行数值解析最适合于复杂的力学问题。它允许对结构的所有点进行更深入的分析。在本研究中,构建了一个基本工具来解决材料在复杂请求下的力学行为。因此,采用ABAQUS 6.14版计算代码对残余应力进行分析。本研究的目的是分析残余应力对多材料组合的影响。通过根据压力变化来解释结果,我们确定了有风险的区域;特别是,接头效应的性质在正确材料的机械阻力组装中起着决定性的作用。这种性质是根据刚度(杨氏模量)和微分膨胀(热膨胀系数)定义的。在数值模拟软件abaqus version 6.14中使用有限元法(积分轮廓)强残余应力的存在会对几种材料构成损坏的风险。连接在一起的两种材料(金属和陶瓷)的热膨胀系数之间的差异在这两种成分中引起法向内应力。这种差异决定了这些约束的级别和分布。此外,这种差异的符号决定了正常应力的状态。从损害的角度来解释结果,我们确定了风险区域。特别是密封的效果,它允许残余应力的强烈松弛。作者未发现潜在的利益冲突。
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
Current Materials Science
Current Materials Science Materials Science-Materials Science (all)
CiteScore
0.80
自引率
0.00%
发文量
38
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