梯度复合B<SUB>4</SUB>C/Cu面向等离子体材料的制备与表征

无机材料学报, 2001, 16(6): 1121-1127.

梯度复合B₄C/Cu面向等离子体材料的制备与表征

凌云汉 , 李江涛 , 葛昌纯

Powder Metallurgy

University of Science &

Beijing 100083

关键词：功能梯度材料 , composite , plasma facing material , boron carbide , copper , sintering

Processing and Characterization of Graded B₄ C/Cu Facing Plasma Composite

LING Yun-Han , LI Jiang-Tao , GE Chang-Chun

Keywords： functionally graded material , 复合材料 , 面向等离子体材料 , 碳化硼 , 铜 , 烧结

基于Ｂ_４Ｃ和Ｃu材料具有明显电阻率及熔点差的特点，提出了在超高压下通电快速烧结Ｂ４Ｃ／Ｃｕ梯度复合材料的新工艺．在２～４ＧＰａ、１２ｋＷ，４０ｓ及适当的热处理条件下成功制备出了成分分布从０～１００％的接近理论密度的Ｂ_４Ｃ／Ｃu层状复合材料；显微观察显示材料的成分和结构是呈梯度分布的．化学溅射实验表明其产额比ＳＭＦ８００核纯级石墨降低７０％；在Ｔｏｋａｍａｋ原位等离子体辐照下，材料表面无明显损伤．

Based on their distinct resistivity and melting point, a new approach for fabricating graded B₄C/Cu composite by rapid self-resistance sintering under ultra-high
pressure was proposed in this paper and with which a near dense plasma facing material with 0-100% compositional distributions of B₄C was obtained
on conditions of 12kW electric power input, 2-4GPa pressure applied, 40s duration and properly consecutive heat treatment. Well-graded composition and
structure of that composite were demonstrated by SEM analysis. Tests on plasma relevant performances show that the chemical sputtering yield of B₄C/Cu graded
composite is 70% lower than that of SMF 800 nuclear graphite, and the surface of the composite is almost no damages after in-situ plasma irradiation in Tokamak apparatus.

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材料期刊网

梯度复合B4C/Cu面向等离子体材料的制备与表征

Processing and Characterization of Graded B4 C/Cu Facing Plasma Composite

参考文献

梯度复合B₄C/Cu面向等离子体材料的制备与表征

Processing and Characterization of Graded B₄ C/Cu Facing Plasma Composite