Vacuum joints of dispersion-strengthened copper and its applications in synchrotron radiation front end

Masks are critical elements of synchrotron radiation front end that are exposed to high temperature and stress. The absorber material is typically comprised of dispersion-strengthened copper, which can retain high performance at elevated temperature. Joining processes under vacuum, including brazing...

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Bibliographic Details
Published inNuclear science and techniques Vol. 27; no. 6; pp. 74 - 78
Main Authors Li, Yong-Jun, Xue, Song, Zhang, Min, Jia, Dan-Dan, Dou, Dong-Bai, Gao, Yu
Format Journal Article
LanguageEnglish
Published Singapore Springer Singapore 01.12.2016
Shanghai Institute of Applied Physics, Chinese Academy of Sciences, ZhangJiang, Shanghai 201204, China%SKY Technology Development Co., Ltd, Chinese Academy of Sciences, Shenyang 110179, China
Subjects
Energy
Hadrons
Heavy Ions
Nuclear Energy
Nuclear Physics
上海同步辐射装置
前端
应用
弥散强化铜
焊接接头
电子束焊接
真空
钎焊接头
Dispersion-strengthened copper
Brazing
Electron beam welding
Front end
Synchrotron radiation
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ISSN1001-8042
2210-3147
DOI10.1007/s41365-016-0130-6

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Summary:Masks are critical elements of synchrotron radiation front end that are exposed to high temperature and stress. The absorber material is typically comprised of dispersion-strengthened copper, which can retain high performance at elevated temperature. Joining processes under vacuum, including brazing and electron beam welding, are novel approaches for prolonging the absorber and for reducing power densities. The mechanical proper- ties of brazed joints and electron beam welded joints of dispersion-strengthened copper workpieces are evaluated by tensile testing at 20, 100, and 200 ~C. The testing results indicate that the tensile strength and elongation of both vacuum joints decrease with increasing temperature. Compared to brazed joints, electron beam welded joints have higher tensile strength, better ductility, and more stable performance. A novel welded mask with a total length of 600 mm is presented and shown to be practical for use in the highest heat load front end in the Shanghai synchrotron radiation facility phase-Ⅱ beamline project.
Bibliography:Dispersion-strengthened copper; Brazing Electron beam welding; Synchrotron radiation; Front end
Masks are critical elements of synchrotron radiation front end that are exposed to high temperature and stress. The absorber material is typically comprised of dispersion-strengthened copper, which can retain high performance at elevated temperature. Joining processes under vacuum, including brazing and electron beam welding, are novel approaches for prolonging the absorber and for reducing power densities. The mechanical proper- ties of brazed joints and electron beam welded joints of dispersion-strengthened copper workpieces are evaluated by tensile testing at 20, 100, and 200 ~C. The testing results indicate that the tensile strength and elongation of both vacuum joints decrease with increasing temperature. Compared to brazed joints, electron beam welded joints have higher tensile strength, better ductility, and more stable performance. A novel welded mask with a total length of 600 mm is presented and shown to be practical for use in the highest heat load front end in the Shanghai synchrotron radiation facility phase-Ⅱ beamline project.
31-1559/TL
ISSN:1001-8042
2210-3147
DOI:10.1007/s41365-016-0130-6