Laser powder bed fusion of a new high gamma prime Ni-based superalloy with improved weldability

Abstract

Abstract This study reports the crack-free fabrication of a new high gamma prime precipitation hardened Ni-based superalloy by Laser Powder Bed Fusion (LPBF) process. In the as-built condition, scanning electron microscopy and electron backscattered diffraction analysis indicated the presence of elongated columnar grains with an orientation along\xa0〈1\xa00\xa00〉\xa0direction. Following the sub-solvus heat treatment cycle determined using Thermo-Calc software, crack-free microstructure with columnar grains was observed along\xa0〈1\xa00\xa00〉\xa0orientation. High-resolution scanning electron microscope analysis revealed a bimodal distribution of gamma prime precipitates and a uniform distribution of carbide precipitates in the heat-treated samples. As a result of heat treatment, hardness increased from 365 HV to 508 HV. The heat-treated samples also displayed excellent yield strength, ultimate tensile strength, and elongation of 939\xa0MPa, 1368\xa0MPa, and 23% respectively at room temperature. Mechanical testing at elevated temperatures confirmed the yield strength, tensile strength, and elongation reached 80\xa0MPa, 106\xa0MPa, and 34% respectively at 1121\xa0°C. The stress rupture test of the heat-treated samples revealed good creep properties with rupture times of 559\xa0h and 75\xa0h, respectively, at 927\xa0°C and 982\xa0°C, for stresses of 152\xa0MPa and 138\xa0MPa.