Al- and Ta-Modified Alloy 740 Superalloy Castings Produced in Non-vacuum Conditions—Microstructure and Selected Properties

Małgorzata Grudzień-Rakoczy, Łukasz Rakoczy, Sebastian Lech, Tomasz Dudziak, Ewa Rząd, Marcin Goły, Marek Paćko, Konrad Chrzan, Rafał Cygan, Cecilia Poletti
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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 M23C6 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/cm2. The addition of tantalum resulted in decreased oxidation resistance and the formation of the TiTaO4 oxide at the Cr2O3/superalloy interface.

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在非真空条件下生产的铝和钽改性合金 740 超合金铸件--微观结构和部分性能
这项研究的重点是表征 Al-(1.3 或 2.8 wt pct)和 Ta 改性(2 或 3 或 4 wt pct)合金 740 镍基超级合金在热处理后的微观结构和特定性能。观察和分析采用了热力学模拟、X 射线衍射、扫描电子显微镜、能量色散 X 射线光谱、透射电子显微镜、蒸汽氧化、硬度、拉伸和应力断裂测试。铸件呈现出典型的树枝状结构,所有改性铸件中都存在细小的γ′析出物、富铌拉维斯相析出物、MC 碳化物和 MN 氮化物。然而,η 相、G 相和 M23C6 的存在取决于超级合金的化学成分。在室温下,参考铸造超耐热合金的极限抗拉强度和屈服强度分别为 655 兆帕和 477 兆帕。在改性铸件中,极限抗拉强度和屈服强度更高,分别为 713-1046 兆帕和 705-903 兆帕。在 760 °C/1000 小时的蒸汽氧化后,改性铸件的增重范围为 0.339-0.429 mg/cm2。钽的加入导致抗氧化性下降,并在 Cr2O3/超合金界面形成 TiTaO4 氧化物。
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