Machining distortion control of long beam parts based on optimal design of transition structure

IF 1 4区工程技术 Q4 ENGINEERING, MECHANICAL

Mechanical Sciences Pub Date : 2023-12-15 DOI:10.5194/ms-14-557-2023

Long-Xin Fan, Ning Han, Yi Zhang

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引用次数: 0

Abstract

Abstract. In the machining of monolithic components, machining distortion is a severe issue. The presence of initial residual stress is a major contributor to machining distortion. This paper proposes an approach to control the machining distortion of long beam parts by optimizing the workpiece structure before the start of the finishing stage, i.e. the transition structure. The first step is to establish a machining distortion analytical model for long beam parts with an identical cross-section, which is based on reasonable assumptions such as material linear elasticity and ignoring the influence of cutting heat. Then, an optimization model for the cross-section of the transition structure is developed, with the objective function defined as the minimum difference between the predicted distortion of the final part and the transition structure. Finally, a U-shaped beam is designed, followed by numerical simulation and machining experiments for verification. The theoretical maximum distortion of the optimized transition structure and the final part are −0.174 and −0.1782 mm, respectively, with a relative error of 2.9 %. The results of machining experiments and finite-element simulation demonstrate the effectiveness of the proposed model.

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基于过渡结构优化设计的长梁零件加工变形控制

摘要在整体部件的加工过程中，加工变形是一个严重的问题。初始残余应力的存在是造成加工变形的主要原因。本文提出了一种通过优化精加工阶段开始前的工件结构（即过渡结构）来控制长梁零件加工变形的方法。第一步是建立横截面相同的长梁零件的加工变形分析模型，该模型基于合理的假设，如材料线弹性和忽略切削热的影响。然后，建立过渡结构横截面的优化模型，目标函数定义为最终零件与过渡结构预测变形之间的最小差值。最后，设计了一个 U 形梁，并进行了数值模拟和加工实验验证。优化后的过渡结构和最终零件的理论最大变形分别为-0.174 毫米和-0.1782 毫米，相对误差为 2.9%。加工实验和有限元模拟的结果证明了所提模型的有效性。

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来源期刊

Mechanical Sciences ENGINEERING, MECHANICAL-

CiteScore

2.20

自引率

7.10%

发文量

审稿时长

29 weeks

期刊介绍： The journal Mechanical Sciences (MS) is an international forum for the dissemination of original contributions in the field of theoretical and applied mechanics. Its main ambition is to provide a platform for young researchers to build up a portfolio of high-quality peer-reviewed journal articles. To this end we employ an open-access publication model with moderate page charges, aiming for fast publication and great citation opportunities. A large board of reputable editors makes this possible. The journal will also publish special issues dealing with the current state of the art and future research directions in mechanical sciences. While in-depth research articles are preferred, review articles and short communications will also be considered. We intend and believe to provide a means of publication which complements established journals in the field.