GH4742 镍基超级合金中 γ′ 沉淀的生长和溶解行为及形态演变

Qiang Tian, Wenwen Zhang, Jinhui Du, Tonggang Lu, Yunlong Liu, Xingang Liu, Hucheng Li, Kaiyao Wang
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引用次数: 0

摘要

本研究通过精心设计的热处理实验,系统地研究了 GH4742 超合金中 γ′ 沉淀的粗化、溶解和形态演变行为。在 650 ℃、750 ℃ 和 850 ℃ 的长期老化过程中,γ′析出物的粗化模型遵循经典的 vs. 函数,与经典的 Lifshitz-Slyozov-Wagner (LSW) 粗化模型(扩散控制型)一致。由于γ′形成元素在较高温度下的扩散系数较高,粗化速率随老化温度的升高而增加。在亚熔融(1080 °C)和超熔融(1120 °C)热处理过程中,建立了初级γ′沉淀溶解的动力学模型。结果表明,在溶液热处理的初始阶段,原生γ′沉淀迅速溶解,随着处理时间的延长,溶解速率逐渐降低,接近热力学平衡时的γ′沉淀尺寸。在超溶(1120 ℃)热处理后以 14 ℃/min 的速度缓慢冷却时,相邻γ′沉淀 "聚集 "形成不规则形状的γ′沉淀,然后在长大过程中 "分裂 "成更小的γ′沉淀。相反,在亚熔融(1080 ℃)热处理后以 14 ℃/min 的速度缓慢冷却时,不规则形状的γ′沉淀主要受立方体形状的γ′沉淀的不稳定生长和 "分裂 "控制。对于单个γ′沉淀,发生不稳定生长(突起)的部分不会进一步分裂。
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Growth and dissolution behavior and morphology evolution of γ′ precipitates in GH4742 nickel-based superalloy
This work systematically investigated the coarsening, dissolution, and morphological evolution behavior of γ′ precipitates in GH4742 superalloy through carefully designed heat treatment experiments. During long-term aging processes at 650 °C, 750 °C, and 850 °C, the coarsening model of γ′ precipitates followed the classic function of vs. , consistent with the classical Lifshitz-Slyozov-Wagner (LSW) coarsening model (diffusion-controlled). Due to higher diffusion coefficients of γ′ forming elements at higher temperatures, the coarsening rate increased with aging temperature. The dynamical models for the dissolution of primary γ′ precipitates were established during sub-solvus (1080 °C) and super-solvus (1120 °C) heat treatment processes. The results indicated rapid dissolution of primary γ′ precipitates in the initial stages of solution heat treatment, with the dissolution rate gradually decreasing as the treatment time extended, approaching the γ′ precipitate size at thermodynamic equilibrium. During subsequent slow cooling at 14 °C/min after super-solvus (1120 °C) heat treatment, irregular-shaped γ′ precipitates formed through “aggregation” of adjacent γ′ precipitates, followed by “splitting” into smaller γ′ precipitates during growing up. Conversely, during subsequent slow cooling at 14 °C/min after sub-solvus (1080 °C) heat treatment, irregular-shaped γ′ precipitates were mainly controlled by unstable growth and “splitting” of cubic-shaped γ′ precipitates. For individual γ′ precipitates, the portion undergoing unstable growth (protrusions) did not undergo further splitting.
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