Single- and multi-objective optimization of internal gear flowforming process based on increasing tooth height and reducing force and built-up edge

IF 0.8 4区工程技术 Q4 ENGINEERING, MECHANICAL

Transactions of The Canadian Society for Mechanical Engineering Pub Date : 2022-10-28 DOI:10.1139/tcsme-2022-0073

M. Khodadadi, K. Khalili, A. Ashrafi

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引用次数: 0

Abstract

Flowforming is an incremental metal forming process in which deformation occurs gradually between the roller and mandrel. This process has been widely used for manufacturing of high-precision tubular parts and seamless tubes. Internal gear flowforming process is a new method for manufacturing an internal gear that requires no additional machining process. In this study, the design of experiment method and regression analysis were used to obtain tooth height, force, and built-up edge as functions of the effective parameters, including feed rate, roller diameter, attack angle, and thickness reduction percentage. Next, the simulated annealing and genetic algorithm were used for, respectively, single- and multi-objective optimization of the obtained functions. The goal of optimization was to reduce the force and built-up edge and increase the tooth height. In single-objective optimization, the maximum tooth height was 0.576 mm, the minimum force was 1606.63 N, and the minimum built-up edge was 0.448 mm. In multi-objective optimization, an optimal set of tooth height, force, and built-up edge (Pareto front) is obtained.

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基于增加齿高、减小力和堆积边的内齿轮流成形工艺单目标和多目标优化

流动成形是一种渐进式金属成形过程，在该过程中，辊子和心轴之间逐渐发生变形。该工艺已广泛用于制造高精度管状零件和无缝管。内齿轮流成形工艺是一种不需要额外加工工艺的内齿轮制造新方法。在本研究中，采用实验方法设计和回归分析，获得了齿高、力和堆积边缘作为有效参数的函数，包括进给速度、辊径、攻角和减厚率。接下来，分别使用模拟退火和遗传算法对所获得的函数进行单目标和多目标优化。优化的目标是减少力和堆积边缘，增加齿高。在单目标优化中，最大齿高为0.576 mm，最小力为1606.63 N、最小堆积边缘为0.448 在多目标优化中，获得了齿高、力和组合边缘（Pareto前沿）的最优集合。

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

Transactions of The Canadian Society for Mechanical Engineering 工程技术-工程：机械

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

5 months

期刊介绍： Published since 1972, Transactions of the Canadian Society for Mechanical Engineering is a quarterly journal that publishes comprehensive research articles and notes in the broad field of mechanical engineering. New advances in energy systems, biomechanics, engineering analysis and design, environmental engineering, materials technology, advanced manufacturing, mechatronics, MEMS, nanotechnology, thermo-fluids engineering, and transportation systems are featured.