Selection of Appropriate Ductile Fracture Criterion to Predict Failure of Folded Cross Section Profiles in Reshaping Process

Document Type : Original Article

Authors

1 Faculty of Mechanical Engineering, Tarbiat Modares University, Tehran, Iran

2 Assiatant prof. Tafresh University

3 Assistant prof. Faculty of Mechanical Engineering, University of Kashan, Kashan, Iran

Abstract

The cold roll forming process is one of the most widely used methods in the production of metal profiles. This method, despite its many advantages for producing folded cross section profiles, the fracture has happened for low-formability metals such as aluminum. Proper design of the line and flower pattern can be effective in preventing this defect. In this paper, three ductile fracture criteria of Brozzo, Ayada and Rice-Tracy are compared to predict the fracture initiation in the reshaping process of the folded cross section. For this purpose, finite element method was performed by Abaqus software considering the fracture criterion. Experimental tests and simulations of the tube flattening were used to verify the results. The results of the tube flattening test show that Brozzo’s accuracy should be higher according to the other two criteria. Then,by using the written subroutine the process of forming the folded steel cross section has been simulated and compared with the experimental results. No fracture in the experimental process of forming the folded steel cross section was observed. According to the simulation results of the folded aluminum cross-section process, each of the Brozzo, Rice-Tracy and Ayada criteria predict the failure lengths of 10.9, 16.1 and 20.6 mm, respectively. Therefore, according to the higher accuracy of the Brozzo criterion in predicting failure in the tube flattening test, the fracture length of this criterion in the process of reshaping of the folded aluminum cross section was selected as a reliable value.

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Iranian Journal of Manufacturing Engineering
Volume 8, Issue 8
October 2021
Pages 24-37

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