Contribution to the Study of Plastic Mechanics Models of Solid-Solid Contacts

IF 0.6 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Annales De Chimie-science Des Materiaux Pub Date : 2020-03-15 DOI:10.18280/acsm.440105

Fatiha Bouhadjela, Bourassia Bensaad, R. Cheriet, M. Belharizi, S. Belhenini

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Abstract

Received: 20 September 2019 Accepted: 26 December 2019 The mechanical and thermal contact behaviour between two solids depends mainly on the contact geometry and the nature of these two solids. It is concluded that for rough surfaces in plastic contact the real contact is affected by the materials hardness, the surfaces roughness and the evolution of the mechanical contact deformation. The aim of the present study is to compare results obtained from experimental work on Vickers hardness of brass to those of the real contact pressure (RCP) obtained by numeric simulation. Hardness and RCP have been selected as physical quantities. For the numerical simulation, three three-dimensional element models are developed; firstly, we simulated Vickers assay using rigid indentor and a deformed plane surface of brass. In the second model we considered a brass indenter in contact with hard plane surface. The dimensions of the second model were changed to create the third model. The obtained results from the numeric models were in agreement with the experimental findings and confirmed the hypothesis of Abbott and Firstone. The three models of simulation may help to select the model that give the best results in short time.

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对固体-固体接触塑性力学模型研究的贡献

两种固体之间的机械和热接触行为主要取决于这两种固体的接触几何形状和性质。结果表明，对于塑性接触中的粗糙表面，实际接触受材料硬度、表面粗糙度和机械接触变形演变的影响。本研究的目的是比较黄铜维氏硬度的实验结果与实际接触压力(RCP)的数值模拟结果。选择硬度和RCP作为物理量。为了进行数值模拟，建立了三个三维单元模型;首先，我们用刚性压头和变形的黄铜平面模拟维氏实验。在第二个模型中，我们考虑与硬平面接触的黄铜压头。更改第二个模型的维度以创建第三个模型。数值模型得到的结果与实验结果一致，证实了Abbott和Firstone的假设。这三种模拟模型有助于选择在短时间内给出最佳结果的模型。

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来源期刊

Annales De Chimie-science Des Materiaux 工程技术-材料科学：综合

CiteScore

1.70

自引率

25.00%

发文量

审稿时长

>12 weeks

期刊介绍： The ACSM is concerning the cutting-edge innovations in solid material science. The journal covers a broad spectrum of scientific fields, ranging all the way from metallurgy, semiconductors, solid mineral compounds, organic macromolecular compounds to composite materials. The editorial board encourages the submission of original papers that deal with all aspects of material science, including but not limited to synthesis and processing, property characterization, reactivity and reaction kinetics, evolution in service, and recycling. The papers should provide new insights into solid materials and make a significant original contribution to knowledge.