Effect of laser beam offset on microstructure and mechanical properties of pulsed laser welded BTi-6431S/TA15 dissimilar titanium alloys

Laser beam welding was used to weld dissimilar joints in BTi-6431S/TA15 titanium alloys. The effect of laser beam offset on microstructural characterizations and mechanical properties of the joints were investigated. Microstructural evolution of the joints was characterized by optical' microscopy (OM) and X-ray diffraction (XRD). Tensile testing was conducted at room temperature and at 550 degrees C. The results demonstrated that with the exception of some porosity, a good quality joint could be achieved. Martensite alpha' and acicular a structures were present in the fusion zone (FZ). The amount of martensite alpha' present with the -0.2 mm beam offset was less than that with the 0.2 mm beam offset. Acicular alpha and martensite a' transformations occurred in the high temperature heat-affected zone (HT-HAZ) of both the BTi-6431S and TA15 alloys. In the low-temperature heat-affected zone (LT4IAZ), the BTi-6431S and TA15 alloy microstructures exhibited a mixture of secondary alpha, primary alpha, and prior beta phases. The micro-hardness values in the FZ followed the order: -0.2 mm > 0 mm > 0.2 mm. Tensile testing at room temperature and at 550 degrees C resulted in fracture of the TA15 alloy base metal. The fracture morphology exhibited a ductile dimple feature. (C) 2015 Elsevier Ltd. All rights reserved.