Finite Element Modeling of ECAP-Linex Combined Process of Severe Plastic Deformation

IF 0.8 Q3 ENGINEERING, MULTIDISCIPLINARY

Modelling and Simulation in Engineering Pub Date : 2023-03-07 DOI:10.1155/2023/1573884

E. Panin, I. Volokitina, A. Volokitin, A. Naizabekov, Gulzhainat Akhmetova, S. Lezhnev, A. Tolkushkin, A. Esbolat, R. Yordanova

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Abstract

The paper presents theoretical studies of a new deformation process combining the stages of equal-channel angular pressing (ECAP) and the “Linex” scheme. For correct finite element modeling of the process, a technique with sequential input for the calculation of conveyor links is presented. To analyze the efficiency of metal processing, the main parameters of the stress–strain state are considered: equivalent strain, equivalent stress, and average hydrostatic pressure, as well as the deformation force on the main elements of the combined process: pulley, matrix, and conveyor link. To analyze the resulting deformation forces, the stages of pressing in a matrix and compression by a chain conveyor were separately considered. Equations for determining the forces acting on the drive pulley, ECA matrix, and the chain element link were obtained. Comparison of values showed that the force values in the calculation and simulation have a high level of convergence. In all three considered details, the difference value did not exceed 10%. The variational modeling allowed to determine the optimal values of the main technological and geometric parameters of the process.

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剧烈塑性变形的ECAP-Linex组合过程的有限元建模

本文对一种新的变形过程进行了理论研究，该变形过程结合了等道角压(ECAP)阶段和“Linex”方案。为了正确地对该过程进行有限元建模，提出了一种顺序输入的输送环节计算方法。为了分析金属加工的效率，考虑了应力-应变状态的主要参数:等效应变、等效应力和平均静液压力，以及组合工艺的主要元件:皮带轮、基体和输送环节上的变形力。为了分析产生的变形力，分别考虑了在矩阵中挤压和在链式输送机中压缩两个阶段。得到了作用在驱动皮带轮上的力、ECA矩阵和链单元连杆的确定方程。数值比较表明，计算所得的力值与仿真所得的力值具有较高的收敛性。在所有三个考虑的细节中，差异值不超过10%。变分模型允许确定该过程的主要工艺参数和几何参数的最佳值。

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

Modelling and Simulation in Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

2.70

自引率

3.10%

发文量

审稿时长

18 weeks

期刊介绍： Modelling and Simulation in Engineering aims at providing a forum for the discussion of formalisms, methodologies and simulation tools that are intended to support the new, broader interpretation of Engineering. Competitive pressures of Global Economy have had a profound effect on the manufacturing in Europe, Japan and the USA with much of the production being outsourced. In this context the traditional interpretation of engineering profession linked to the actual manufacturing needs to be broadened to include the integration of outsourced components and the consideration of logistic, economical and human factors in the design of engineering products and services.