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納米ZrC增強(qiáng)WNiFe合金的微觀結(jié)構(gòu)及性能研究
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作者單位:

1.中國科學(xué)技術(shù)大學(xué);2.中國科學(xué)院固體物理研究所

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國家重點(diǎn)研發(fā)計劃(2022YFE03140002, 2019YFE03110200),國家自然科學(xué)基金項目(面上項目52273320, 52173303, 52171084),國家杰出青年科學(xué)基金 (52325103)


Microstructure and properties of ZrC nanoparticles strengthened WNiFe alloys
Author:
Affiliation:

1.University of Science and Technology of China;2.Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences

Fund Project:

National Key Research and Development Program of China (Grant Nos. 2022YFE03140002, 2019YFE03110200), National Natural Science Foundation of China (Grant Nos. 52273320, 52173303, 52325103, 52171084)

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    摘要:

    鎢是聚變堆面向等離子部件及散裂中子源靶體的候選材料,但其室溫脆性和輻照脆性極大地限制其應(yīng)用。高比重鎢合金由于具有室溫延展性和低成本的優(yōu)點(diǎn),被認(rèn)為是一種良好的替代材料。在本研究中,通過放電等離子燒結(jié)和旋鍛制備了納米ZrC顆粒強(qiáng)化的93W-4.9Ni-2.1Fe合金。結(jié)果表明,少量納米ZrC顆粒的添加可以細(xì)化晶粒并提高WNiFe合金的硬度,但會阻礙燒結(jié)過程中γ-(Ni,Fe)相的形成。因此,放電等離子體燒結(jié)的WNiFe和WNiFe-ZrC合金在室溫下是脆性的。而采用無壓液相燒結(jié)和旋鍛制備的WNiFe及WNiFe-0.5wt%ZrC合金具有室溫塑性。在400 °C時,旋鍛WNiFe-0.5 wt%ZrC的抗拉強(qiáng)度和延伸率均高于WNiFe合金。納米顆粒在W晶粒和γ-(Ni,Fe)相中分布,能夠釘扎位錯和晶界,顯著提高合金強(qiáng)度。旋鍛WNiFe-0.5 wt%ZrC的室溫?zé)釋?dǎo)率僅為71 Wm-1K-1,但在800 °C時增加到約100 Wm-1K-1,與純W (121 Wm-1K-1)的熱導(dǎo)率相近,具有用作聚變堆面向等離子體材料的潛力。

    Abstract:

    Tungsten (W) is one of the most promising plasma-facing materials in nuclear fusion devices and candidate target materials for spallation neutron source, however its applications are greatly hindered by its room-temperature brittleness and irradiation-induced embrittlement. W heavy alloys with room temperature ductility and low cost were considered as alternative materials. In this work, 93W-4.9Ni-2.1Fe alloys strengthened by nanoscale ZrC particles were fabricated by spark-plasma-sintering (SPS) and hot rotary swaging, respectively. The addition of a small amount of ZrC nanoparticles can refine grain size and increase the hardness of the WNiFe alloys, but hinder the formation of the γ-(Ni, Fe) phase during SPS. The SPS WNiFe and WNiFe-ZrC alloys are brittle at room temperature, while the swaged WNiFe and WNiFe-0.5 wt% ZrC alloys are ductile at room temperature. At 400 °C, the swaged WNiFe-0.5 wt% ZrC alloy exhibits both higher tensile strength and better ductility than the swaged WNiFe. The nanoscale particles distributed in the W grains and γ-(Ni,Fe) phase provided a good pinning effect and enhanced the strength. The thermal conductivity of swaged WNiFe-0.5 wt%ZrC is 71 Wm-1K-1 at room temperature, but it increases to about 100 Wm-1K-1 at 800 °C, which is close to that of pure W (121 Wm-1K-1). These results show the potential of WNiFe alloys as candidate materials for fusion applications.

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楊潤,王慧,劉瑞,吳學(xué)邦,王先平,方前鋒,劉長松.納米ZrC增強(qiáng)WNiFe合金的微觀結(jié)構(gòu)及性能研究[J].稀有金屬材料與工程,,().[Yang Run, Wang Hui, Liu Rui, Wu Xuebang, Wang Xianping, Fang Qianfeng, Liu Changsong. Microstructure and properties of ZrC nanoparticles strengthened WNiFe alloys[J]. Rare Metal Materials and Engineering,,().]
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  • 收稿日期:2024-09-30
  • 最后修改日期:2025-01-13
  • 錄用日期:2025-01-21
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