APPLICATION OF FRICTION WELDING FOR PUMP DESIGN AND MANUFACTURING: A COMPREHENSIVE REVIEW

International Journal of Mechanical Engineering Technologies and Applications Pub Date : 2024-01-31 DOI:10.21776/mechta.2024.005.01.4

Muhammad Alfath Ziaul Haq, Agung Widodo, Howard Saputra

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Abstract

The discussion regarding the balance between economical and performance for the pump design and manufacturing has been increasing in recent years. Of many intelligent innovations, the use of less costly materials for pump shaft is an interesting solution for the pump design. This solution can also be achieved by selecting less costly materials made from metal. Then, the less costly metal connected to electrical motor is joined with a more costly metal connected to the pump. Since both metals can be difference ones, an advance welding process to join both metals is then required. The friction welding process is expected to fulfill this requirement. In the friction welding, heat is generated during friction between these two dissimilar metals. The generated heat should achieve particular temperatures so that the two dissimilar metals can be joined. There are three types of friction welding, e.g. the stir friction welding, the linear friction welding and the continuous drive friction welding, which can be selected to join these two dissimilar metals. This paper is based on the authors’ experience and literature review to discuss the application of friction welding for the pump design and manufacturing.

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摩擦焊接在泵设计和制造中的应用：综述

近年来，关于如何在泵的设计和制造中兼顾经济性和性能的讨论越来越多。在众多智能创新中，使用成本较低的材料制造泵轴是一种有趣的泵设计解决方案。选择成本较低的金属材料也可以实现这一解决方案。然后，将连接电机的成本较低的金属与连接泵的成本较高的金属连接起来。由于两种金属可能存在差异，因此需要采用先进的焊接工艺来连接两种金属。摩擦焊接工艺有望满足这一要求。在摩擦焊接过程中，这两种不同的金属在摩擦过程中会产生热量。产生的热量应达到特定的温度，以便将两种异种金属连接起来。有三种类型的摩擦焊接，如搅拌摩擦焊接、线性摩擦焊接和连续驱动摩擦焊接，可用于连接这两种异种金属。本文基于作者的经验和文献综述，讨论了摩擦焊在泵设计和制造中的应用。

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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International Journal of Mechanical Engineering Technologies and Applications

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