Outline

Ingegneria Sismica

Ingegneria Sismica

Construction of an optimization method for regulating initial residual stress during machining of high-strength aluminum alloys

Author(s): Haichao Ye1, Yiping Xu1, Fangfei Chang1, Shaoshuai Hou1, Sicheng He1
1School of Intelligent Manufacturing, Luoyang Institute of Science and Technology, Luoyang, Henan, 471023, China
Ye, Haichao. et al “Construction of an optimization method for regulating initial residual stress during machining of high-strength aluminum alloys.” Ingegneria Sismica Volume 43 Issue 1: 1-20, doi:10.65102/is2026176.

Abstract

This study investigates the effect of different shrinkage rates and residual stresses between the elements of high-strength aluminum alloy during machining, which will affect the performance of high-strength aluminum alloy and cause significant economic losses to the manufacturer. In order to solve this problem, a finite element model of high-strength aluminum alloy laminar cooling heat–force coupling is established in the ABAQUS platform to simulate the thermal field, phase change, and residual stress development during the cooling process. The residual stresses of the high-strength aluminum alloy blank are obtained by the drilling method. The results show that the error between simulation and experimental measurement is between 6.52% and 13.68%, proving that the finite element model established in this study is accurate. It is concluded from further research that the convective heat transfer coefficient is the main influence on the residual stress of quenched aluminum alloy. Thus, this paper suggests that it is feasible to regulate residual stress through the convective heat transfer coefficient, thereby achieving quality control of high-strength aluminum alloy components at the source.

Keywords
High-strength aluminum alloy; Residual stress control optimization; Finite element simulation; Quenching process; Mechanical processing

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