材料科学
高温合金
微观结构
极限抗拉强度
合金
Laves相
扫描电子显微镜
碳化物
冶金
复合材料
金属间化合物
作者
Małgorzata Grudzień-Rakoczy,Łukasz Rakoczy,Sebastian Lech,T. Dudziak,Ewa Rząd,Marcin Goły,M. Paćko,Konrad Chrzan,Rafał Cygan,María Cecilia Poletti
标识
DOI:10.1007/s11661-024-07504-7
摘要
Abstract The work focuses on characterizing the microstructure and selected properties of Al- (1.3 or 2.8 wt pct) and Ta-modified (2 or 3 or 4 wt pct) Alloy 740 Ni-based superalloy after heat treatment. The observations and analyses were conducted using thermodynamic simulations, X-ray diffraction, scanning electron microscopy, energy-dispersive X-ray spectroscopy, transmission electron microscopy, steam oxidation, hardness, tensile, and stress rupture tests. The castings exhibit a typical dendritic structure, with the presence of fine γ ′ precipitates, Nb-rich Laves phase precipitates, MC carbides, and MN nitrides are found in all modified castings. However, the presence of the η phase, G phase, and M 23 C 6 is dependent on the superalloy’s chemical composition. At room temperature, the reference cast superalloy had an ultimate tensile strength and yield strength of 655 MPa and 477 MPa, respectively. In modified castings, the ultimate tensile strength and YS are higher, respectively, 713–1046 MPa and 705–903 MPa. After steam oxidation at 760 °C/1000 h, the mass gain of the modified castings was in the range of 0.339–0.429 mg/cm 2 . The addition of tantalum resulted in decreased oxidation resistance and the formation of the TiTaO 4 oxide at the Cr 2 O 3 /superalloy interface.
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