Diffusion bonding W and RAFM-steel with an Fe interlayer by hot isostatic pressing

Huang Pan; Wang Yiming; Peng Huabei; Chen Jiming; Wang Pinghuai

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Diffusion bonding W and RAFM-steel with an Fe interlayer by hot isostatic pressing

机译：通过热等静压与Fe中间层的扩散键合W和RAFM-钢

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W and RAFM-steel joint is the major feature of the plasma facing component in the first wall of a fusion reactor. In present work, W and RAFM-steel were successfully diffusion bonded with an Fe interlayer by hot isostatic pressing at 980 degrees C and 150 MPa for 1 h. Two Fe-rich phases, a Fe2W type phase and a Fe3W3C type phase, were formed at the W/Fe interface. Both phases were drastically deformed under the interfacial thermal stress, leading to stress-induced martensitic transition of the Fe2W type phase and plastic slip of the Fe3W3C type phase. Their deformation could reduce the residual stress significantly at the W/reaction layer interface and the W/Fe/RAFM-steel joint exhibited high bonding strength ( 240 MPa) and ductility in the shear test.

机译：W和Rafm-钢接头是熔融反应器的第一壁中等离子体面向部件的主要特征。在目前的工作中，通过在980℃和150MPa持续1小时，通过热等静压成功地扩散与Fe中间层的粘合。在W / Fe界面形成两个Fe的相，Fe2W型相和Fe3W3C型相。两相在界面热应力下大幅变形，导致Fe2W型相和塑料滑移的应力诱导的马氏体转变和Fe3W3C型相的塑料滑移。它们的变形可以在W /反应层界面下显着降低残留应力，并且W / Fe / Rafm-钢接头在剪切试验中表现出高粘合强度（> 240MPa）和延展性。

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来源
《Fusion Engineering and Design》 |2020年第9期|111796.1-111796.6|共6页
作者
Huang Pan; Wang Yiming; Peng Huabei; Chen Jiming; Wang Pinghuai;
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作者单位

Southwestern Inst Phys Chengdu 610041 Peoples R China;

Southwestern Inst Phys Chengdu 610041 Peoples R China;

Sichuan Univ Sch Mech Engn Chengdu 610065 Peoples R China;

Southwestern Inst Phys Chengdu 610041 Peoples R China;

Southwestern Inst Phys Chengdu 610041 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
Tungsten; RAFM-steel; Fe interlayer; Diffusion bonding; Hot isostatic pressing;

机译：钨;RAFM-钢;FE层间;扩散键合;热等静压;

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1. The Research of Hot Isostatic Pressing Diffusion Bonding on Interface Structure and Bonding Properties for Hybrid Structure Nickel-base Superalloys [J] . J. H. Liao, S. H. Chen, H. Y. Bor, 鑄造工程學刊 . 2016,第1a168期

机译：热等静压扩散键合混合结构镍基高温合金界面结构和键合性能的研究
2. Verification of the effect of surface preparation on Hot Isostatic Pressing diffusion bonding joints of CLAM steel [J] . Zhao Yanyun, Li Chunjing, Huang Bo, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2014,第1a3期

机译：验证表面处理对CLAM钢热等静压扩散连接的影响
3. Effect of Surface Preparation on CLAM/CLAM Hot Isostatic Pressing diffusion bonding joints [J] . C. Li, Q Huang, P. Zhang Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 2009,第Null期

机译：表面处理对CLAM / CLAM热等静压扩散粘结接头的影响
4. Fabrication of Be-CuCrZr/SS Joints by Hot Isostatic Pressing Diffusion Bonding [C] . Che Hongyan, Dong Hao, Wang Tiejun, World Congress on Powder Metallurgy . 2018

机译：通过热等静压扩散键合的BE-CUCRZR / SS关节的制造
5. Hot isostatic pressing of uranium-10zirconium alloy nuclear fuel by coupled grain boundary diffusion and power-law creep. [D] . McDeavitt, Sean Marshall. 1992

机译：耦合的晶界扩散和幂律蠕变对铀10锆合金核燃料进行热等静压。
6. Correction: Bassini E.; et al. Study of the Effects of Aging Treatment on Astroloy Processed via Hot Isostatic Pressing. Materials 2019 12 1517 [O] . Emilio Bassini, Giulio Cattano, Giulio Marchese, 2020

机译：更正：BassiniE .;等。老化处理对热等静压加工Astroloy影响的研究。材料2019121517
7. Application of hot isostatic pressing (HIP) technology to diffusion bond refractory metals for proton beam targets and absorbers at CERN [O] . Josep Busom Descarrega, Marco Calviani, Thomas Hutsch, 2019

机译：热等静压（HIP）技术在核心梁束靶和吸收器中的扩散粘合金属扩散粘合金属
8. Hot-isostatic pressing of U-10Zr by grain boundary diffusion and creep cavitation. Part 2: Theory and data analysis [R] . McDeavitt, S. M. , Solomon, A. A. 1997

机译：U-10Zr的热等静压通过晶界扩散和蠕变空化。第2部分：理论和数据分析

Diffusion bonding W and RAFM-steel with an Fe interlayer by hot isostatic pressing

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