Investigation of vacuum performances of TiZrV coated pipe

Investigation of vacuum performances of TiZrV coated pipe

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摘要 Some metal compounds called as Non-Evaporable-Getter have been widely used to improve vacuum system performance of accelerator facility.In this paper,a TiZrV film on the surface of stainless steel vacuum pipe is made by direct current magnetron sputtering,and its vacuum performance is experimentally studied.Our results show that the TiZrV film is partly activated at 160℃,and its pressure performance is similar with one at higher temperature. The coating reduces the ultimate pressure and prominently shortens the pressure-down time in a sputter ion pump system,thus creating evenly distributed pressure profile in a coating pipe.The adsorption rate is steady,and adsorption amount increases linearly.Such TiZrV-coated pipe behaves like pump other than gas source in vacuum system. Some metal compounds called as Non-Evaporable-Getter have been widely used to improve vacuum system performance of accelerator facility. In this paper, a TiZrV film on the surface of stainless steel vacuum pipe is made by direct current magnetron sputtering, and its vacuum performance is experimentally studied. Our results show that the TiZrV film is partly activated at 160℃, and its pressure performance is similar with one at higher temperature. The coating reduces the ultimate pressure and prominently shortens the pressure-down time in a sputter ion pump system, thus creating evenly distributed pressure profile in a coating pipe. The adsorption rate is steady, and adsorption amount increases linearly. Such TiZrV-coated pipe behaves like pump other than gas source in vacuum system.

作者 ZHANG Haiou DAI Dongdong TANG Ziyi ZHANG Jidong SHAO Bin HE Suixia

机构地区 Shanghai Institute of Applied Physics

出处《Nuclear Science and Techniques》 SCIE CAS CSCD 2011年第6期326-329,共4页 核技术（英文）

关键词高真空系统涂层管直流磁控溅射压力剖面表演真空性能金属化合物不锈钢管 TiZrV, Activation, Adsorption, Pressure, Direct current magnetron sputtering

分类号 TN304.21 [电子电信—物理电子学] TB753.2 [一般工业技术—真空技术]

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Nuclear Science and Techniques

2011年第6期

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Investigation of vacuum performances of TiZrV coated pipe

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