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长期时效对新型镍基粉末高温合金FGH4113A微观组织与性能的影响

The Effect of Long-Term Aging on the Microstructure and Properties of a Novel Nickel-Based Powder Superalloy FGH4113A.

作者信息

Xiong Jiangying, Yin Chao, Wang Chong, Feng Ganjiang, Guo Jianzheng

机构信息

State Key Laboratory of Powder Metallurgy, Central South University, Changsha 410083, China.

Wedge Central South Research Institute Co., Ltd., Shenzhen 518045, China.

出版信息

Materials (Basel). 2024 Aug 23;17(17):4175. doi: 10.3390/ma17174175.

DOI:10.3390/ma17174175
PMID:39274565
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11396208/
Abstract

This study investigates the microstructural evolution and its effect on the fatigue performance of a novel nickel-based powder superalloy FGH4113A (WZ-A3) after long-term aging at 760 °C and 815 °C. The results show that long-term aging both at 760 °C and 815 °C has no significant effect on the grain size and morphology of the alloy. After aging at 760 °C for up to 2020 h, the size of the γ' phase remains unchanged, and its morphology transitions from nearly square to nearly spherical. During long-term aging at 815 °C for 440 h, γ' phase coarsening and spheroidizing occur simultaneously. With prolonged aging time, the size and spheroidization degree of the γ' phase further increase. During long-term aging up to 440 h at 760 °C, the dispersed granular MC and MC carbides dissolve and re-precipitate. By 2020 h of aging, flocculent carbides precipitate and non-continuous MC and MC accumulate at grain boundaries. After long-term aging at 815 °C for 440 h, flocculent carbides begin to precipitate within the grains. By 2020 h of aging, a large amount of flocculent carbides precipitate with significant coarsening and enrichment of the grain boundary carbides. Due to the insignificant coarsening of the γ' phase as well as the enrichment and precipitation of the grain boundary carbides, the fatigue performance of the alloy decreases slightly after long-term aging.

摘要

本研究调查了新型镍基粉末高温合金FGH4113A(WZ-A3)在760℃和815℃长期时效后的微观结构演变及其对疲劳性能的影响。结果表明,760℃和815℃的长期时效对合金的晶粒尺寸和形态均无显著影响。在760℃时效长达2020小时后,γ'相尺寸保持不变,其形态从近方形转变为近球形。在815℃长期时效440小时期间,γ'相粗化和球化同时发生。随着时效时间延长,γ'相的尺寸和球化程度进一步增加。在760℃长期时效长达440小时期间,弥散分布的颗粒状MC和MC碳化物溶解并重新析出。到时效2020小时时,絮状碳化物析出,且不连续的MC和MC在晶界处聚集。在815℃长期时效440小时后,晶粒内部开始析出絮状碳化物。到时效2020小时时,大量絮状碳化物析出,晶界碳化物显著粗化并富集。由于γ'相粗化不明显以及晶界碳化物的富集和析出,合金在长期时效后的疲劳性能略有下降。

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