Litcius/Paper detail

Intrinsic dependence of welding quality and recrystallization on the surface-contacted micro-asperity scale during ultrasonic welding of Cu–Cu joints

Qiuchen Ma, Jingyuan Ma, Jianli Zhou, Hongjun Ji

2022Journal of Materials Research and Technology33 citationsDOIOpen Access PDF

Abstract

Substantial shear deformation induced by high-frequency friction at the interface is inseparable from recrystallization and welding quality during ultrasonic welding. In this study, we prepared welding surfaces with various micro-asperity scales to analyze the comprehensive effects of deformation heat, shear strain and strain rate on the recrystallization and welding quality. Smaller surface-contacted micro-asperities with a size of 16.03 nm led to a surge in the low angle grain boundaries and recrystallization grains before the formation of a complete weld, which drastically increased the load carry capacity by 139% for joints welded at 1500 J comparing with larger micro-asperities. Molecular dynamics simulation indicated that weld formation involved a dynamic process, including micro-connection, tear, fracture, flattening and weld spread, and the reduction in the micro-asperity scale accelerated the flattening process and aggravated shear deformation at the intimate contact positions. According to the calculation model of recrystallization induced by the shear deformation, smaller micro-asperities promoted the coupling between high shear strain and low strain rate, and maximum shear strain of 1.57 and minimum average strain rate of 346/s were obtained simultaneously, which decreased critical recrystallization strain and enlarged the dynamic recrystallization regions during ultrasonic welding.

Topics & Concepts

Materials scienceWeldingRecrystallization (geology)Dynamic recrystallizationMetallurgyFlatteningComposite materialStrain rateHot workingMicrostructureBiologyPaleontologyMicrostructure and mechanical propertiesAdvanced Welding Techniques AnalysisSurface Treatment and Residual Stress