Ni-based 초내열합금의 미세조직, 인장특성, δ 석출상에 미치는 열처리 온도의 영향

Abstract

Here, we investigated the influence of δ-precipitate (orthorhombic D0a Ni3Nb-ordered phase) on theroom- and high-temperature tensile properties in wrought nickel-based Inconel 625 superalloys subjected tosolution and aging heat treatment. Typically, solution heat-treatment temperatures in these alloys affect thesolid-state precipitation of δ-phase, which governs high-temperature tensile properties. While precipitation offine D0a δ-phase is known to have beneficial effects on the mechanical properties owing to the retardation ofgrain coarsening, Widmanstätten δ precipitation plays a deleterious influence on the fracture toughness, tensileductility, and fatigue resistance. Therefore, to enhance the mechanical properties of this alloy series, it is keyto generate a high number density of fine D0a δ precipitate by adjusting solid solution treatment temperatures. In this study, solution heat treatments were conducted above and below δ-phase solvus temperatures. Byapplying solution heat treatment at 900°C and 970°C, this alloy was confirmed to have a Widmanstätten δphase and is composed similarly to the annealed microstructure. This Widmanstätten δ precipitate was denselydistributed at both intergranular and intragranular grains. On the other hand, when solution treatment wasapplied at 1040 and 1100°C, more coarse particles (approximately 30 μm) with a significant reduction ofWidmanstätten type δ phase were obtained. We found that grain size and Widmanstätten δ-phases have animportant role in the high-temperature tensile properties of Inconel 625 superalloy series.