Numerical investigation of friction crush welding aluminium and copper sheet metals with flanged edges

¹ Research Scholar, Department of Mechanical Engineering, National Institute of Technology Uttarakhand, Srinagar (Garhwal), Uttarakhand, India
² Department of Mechanical Engineering, National Institute of Technology Uttarakhand, Srinagar (Garhwal), Uttarakhand, India

^* Corresponding author: ashu1651@gmail.com

Abstract

Aluminum alloys are the most attractive solutions for many industries including aerospace, marine, and other transportation sectors where lightweight construction is required. Friction Crush Welding (FCW) is a new material joining process that simultaneously creates a mechanical lock and a metallurgical seal at the interface between similar and dissimilar materials. In this research work presents the development of numerical modelling to predict the temperature distribution and mechanical performance of aluminum and copper similar joints in the FCW of sheet metal section. An explicit nonlinear transient finite element thermomechanical model is develop using ABAQUS based on the coupled Euler-Lagrange method to simulate FCW of AW5754 and Cu-DHP alloys. The Johnson-Cook materials law is adopted in the FEM. Numerical investigations of the FCW process was performed to reduce experimental testing times, which can be long and expensive. Temperature distribution and von misses stress flow patterns are observed at the top surface of the weld. Numerical simulation data correlate with experimental data in the literature.