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Effect of copper-nickel interlayer thickness on laser welding-brazing of Mg/Ti alloy

Authors :
Farazila Yusof
Faris Tarlochan
Jinge Liu
Caiwang Tan
S.T. Auwal
Singh Ramesh
Zequn Zhang
Sunusi Marwana Manladan
Source :
Optics & Laser Technology. 115:149-159
Publication Year :
2019
Publisher :
Elsevier BV, 2019.

Abstract

Dissimilar lap joining of AZ31B Mg alloy to Cu-Ni coated Ti-6Al-4V was carried out by laser welding-brazing method. The effect of Cu and Ni contents on interfacial reaction and joint fracture load were analyzed. For the joint in which the Ni coating (15.36 µm) was thicker than the Cu coating (5.47 µm), thick intermetallic compound (IMC) composed of a mixture of light gray Al-Ni-Ti + Ti3Al + Ti2Ni phases mingled with dark gray Ti3Al was produced at the interface. In comparison, a mixed interfacial reaction layer consisted of Ti2Ni and Ti3Al was formed from the direct irradiation zone to the weld toe zone of the joint with comparable Ni and Cu coating thicknesses (10.78 µm Cu–9.30 µm Ni). In this case, the thickness of the mixed layer was below the critical thickness of 10 µm. For the joint in which the Cu coating is much higher than the Ni coating thickness (17.12 µm Cu–4.23 µm Ni), Ti3Al and Ti2Ni mixed reaction layer was produced at the brazed interface of direct irradiation zone, whereas, only Ti3Al phase was formed at the middle zone. At the weld toe zone, Ti2Cu uneven interfacial reaction layer was evolved. With increasing Cu and decreasing Ni coating thicknesses, the fracture load first increased and then slightly decreased, the maximum tensile-shear fracture load attained 2020 N for joints with comparable Cu and Ni coating thicknesses. This is twofold higher than that of uncoated joint. The tensile-shear investigation showed that the joint would fracture at the fusion zone when the coating thickness of Ni was comparable or higher than Cu. In contrast, interfacial failure was observed when the thickness of Cu was much higher than the Ni. For the joint with interfacial failure mode, tear ridge was observed from the fracture surface, whereas, the fusion zone fracture surfaces was noted to display a typical dimple feature. The authors would like to acknowledge the support provided by University of Malaya (Project No. GPF073A-2018 ), National Natural Science Foundation of China (Project No. 51504074 and 51875129 ) and Key Research & Development Program in Shandong Province (Grant No. 2017CXGC0811 and 2017GGX30147 ). Scopus

Details

ISSN :
00303992
Volume :
115
Database :
OpenAIRE
Journal :
Optics & Laser Technology
Accession number :
edsair.doi.dedup.....5c395ee87bfc3042b2f58bd4a1c08a38