Microstructure and Mechanical Properties of Resistance Element Welded Joints for DP780 Steel and 6061 Aluminum Alloy

Yang, Yanqi; Bi, Yuanbo; Zhang, Yixuan; Su, Jie; Luo, Zhen

doi:10.1002/adem.202201795

Cited by 5 publications

(1 citation statement)

References 53 publications

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“…It is also believed that this contributed to the formation of coarse grains in the welded joint due to the delayed cooling of the joint caused by the RPH process. The region where the highest temperature is reached in coarse-grained HAZ is above the Ac 3 value and is the area where there is enough time for the growth of austenite grains [34,35].…”

Section: Microstructure Investigationsmentioning

confidence: 99%

Regional Pre-Heat Treatment System Development and Applications for HAZ in RSW Joining of High-Strength Steels

Aydın

HIDIROĞLU²,

Kahraman³

2023

Preprint

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STRENX and DP steels are advanced high-strength dual-phase steel types used in the automotive industry for producing lightweight vehicles that have low cost, high fuel efficiency, and can carry more load volume. In this study, STRENX 700 CR and DP 800 steels were joined by resistance spot welding (RSW) using medium frequency direct current (MFDC). Some parts were joined under atmospheric conditions, while others were joined by applying regional pre-heating (RPH) to their heat-affected zones (HAZ) before welding. The design, manufacturing, and adaptation of the RPH system to the RSW machine were carried out as part of this study, considering it as a new system. After the joining process, non-destructive (visual inspection, magnetic particle) and destructive (microhardness, tensile-shear, cross-tension, fatigue) tests were performed on RSW connections between STRENX 700 CR and DP 800 steels. Hardness tests revealed that the RPH applied to the HAZ before welding reduced the hardness of the weld metal by approximately 8%, while the microstructure analysis showed that the RPH increased both the weld metal and the HAZ width. The tensile-shear strength increased by about 7%, and the cross-tension test strength increased by about 5% with the RPH applied to the HAZ before welding. In both the tensile-shear and cross-tension tests, all failures occurred in the form of button shearing from the HAZ. The RPH treated specimens showed the highest fatigue life, with an average of 947,632 cycles.

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Section: Microstructure Investigationsmentioning

confidence: 99%