Huifang Zhang, Jun Xie, Qi Li, Hao Wu, Jinjiang Yu, Hongyu Chai, Fengjiang Zhang, Jinguo Li, Yizhou Zhou, Xiaofeng Sun
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Specifically, the substitution of W with Nb lowered <i>T</i><sub>S</sub> from 1353 °C to 1332 °C and <i>T</i><sub>L</sub> from 1383 °C to 1368 °C, while replacing W with Hf decreased <i>T</i><sub>S</sub> from 1353 °C to 1330 °C and <i>T</i><sub>L</sub> from 1383 °C to 1366 °C. Moreover, both Nb and Hf element are positive segregation element, while Nb decreases and Hf increases W segregation, respectively. During the final solidification stage, the substitution of W with Nb resulted in the formation of eutectic (<i>γ</i> + <i>γ</i>’), Co<sub>3</sub>Ta, and a small amount of <i>μ</i>-Co<sub>7</sub>Nb<sub>6</sub> phase, while replacing W with Hf resulted in the formation of the Laves phase and <i>β</i>-CoAl phase. The solidification paths of the three alloys were confirmed based on the result of differential scanning calorimetry, isothermal solidification experiment and Thermo-calc simulation. 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引用次数: 0
摘要
了解各种元素对凝固行为的影响对于设计γ'-强化钴基超合金的成分至关重要,也是控制铸件结构和制定后续热处理工艺的基础。本研究调查了用 1%的 Nb 或 Hf 元素替代 1%的 W 对 Co-Ni-Al-W 基超合金凝固行为的影响。研究结果表明,用 Nb 和 Hf 替代 W 会显著降低凝固温度 (TS) 和液相温度 (TL)。具体地说,用铌代替 W 后,TS 从 1353 ℃ 降至 1332 ℃,TL 从 1383 ℃ 降至 1368 ℃,而用 Hf 代替 W 后,TS 从 1353 ℃ 降至 1330 ℃,TL 从 1383 ℃ 降至 1366 ℃。此外,铌和铪元素都是正偏析元素,铌和铪分别降低和增加了W的偏析。在最后凝固阶段,用 Nb 替代 W 会形成共晶(γ + γ')、Co3Ta 和少量 μ-Co7Nb6 相,而用 Hf 替代 W 则会形成 Laves 相和β-CoAl 相。根据差示扫描量热法、等温凝固实验和 Thermo-calc 模拟的结果,确认了三种合金的凝固路径。这些结果为 Co-Ni-Al-W 基超合金的成分设计和热处理工艺优化提供了理论依据。
Influence of Substituting W for Nb or Hf on Solidification Behavior of a Typical Co–Ni–Al–W Based Superalloy
Understanding the effects of various elements on solidification behavior is crucial for designing the composition of γ’-strengthened Co-based superalloys and is fundamental for controlling the as-cast structure and formulating subsequent heat treatment processes. This research investigated the effects of replacing 1 at.% W with 1 at.% Nb or Hf elements on the solidification behavior of Co–Ni–Al–W-based superalloys. The findings revealed that substituting W with Nb and Hf resulted in a notable decrease in both the solidus temperature (TS) and liquidus temperature (TL). Specifically, the substitution of W with Nb lowered TS from 1353 °C to 1332 °C and TL from 1383 °C to 1368 °C, while replacing W with Hf decreased TS from 1353 °C to 1330 °C and TL from 1383 °C to 1366 °C. Moreover, both Nb and Hf element are positive segregation element, while Nb decreases and Hf increases W segregation, respectively. During the final solidification stage, the substitution of W with Nb resulted in the formation of eutectic (γ + γ’), Co3Ta, and a small amount of μ-Co7Nb6 phase, while replacing W with Hf resulted in the formation of the Laves phase and β-CoAl phase. The solidification paths of the three alloys were confirmed based on the result of differential scanning calorimetry, isothermal solidification experiment and Thermo-calc simulation. These results offer a theoretical basis for the composition design and optimization of heat treatment processes for Co–Ni–Al–W-based superalloys.
期刊介绍:
This international journal presents compact reports of significant, original and timely research reflecting progress in metallurgy, materials science and engineering, including materials physics, physical metallurgy, and process metallurgy.