Enhanced adhesion of Cu-W thin films by ion beam assisting bombardment implanting 被引量：2

Enhanced adhesion of Cu-W thin films by ion beam assisting bombardment implanting

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摘要 Cu-W thin film with high W content was deposited by dual-target DC-magnetron co-sputtering technology.Effects of the substrates surface treating technique on the adhesive strength of Cu-W thin films were studied.It is found that the technique of ion beam assisting bombardment implanting of W particles can remarkably improve the adhesive property of Cu-W thin films. Indentation and scratching test show that,the critical load is doubled over than the sample only sputter-cleaned by ion beam.The enhancing mechanism of ion beam assisting bombardment implanting of Cu-W thin films was analyzed.With the help of mid-energy Ar+ion beam,W atoms can diffuse into the Fe-substrate surface layer;Fe atoms in the substrate surface layer and W atoms interlace with one another;and microcosmic mechanical meshing and diffusing combination on atom-scale among the Fe and W atoms through the film/substrate interface can be formed.The wettability and thermal expansion properties of the W atoms diffusion zone containing plentiful W atoms are close to those of pure W or W-based Cu-W film. Cu-W thin film with high W content was deposited by dual-target DC-magnetron co-sputtering technology. Effects of the substrates surface treating technique on the adhesive strength of Cu-W thin films were studied. It is found that the technique of ion beam assisting bombardment implanting of W particles can remarkably improve the adhesive property of Cu-W thin films. Indentation and scratching test show that, the critical load is doubled over than the sample only sputter-cleaned by ion beam. The enhancing mechanism of ion beam assisting bombardment implanting of Cu-W thin films was analyzed. With the help of mid-energy Ar^＋ ion beam, W atoms can diffuse into the Fe-substrate surface layer; Fe atoms in the substrate surface layer and W atoms interlace with one another; and microcosmic mechanical meshing and diffusing combination on atom-scale among the Fe and W atoms through the film/substrate interface can be formed. The wettability and thermal expansion properties of the W atoms diffusion zone containing plentiful W atoms are close to those of pure W or W-based Cu-W film.

作者周灵平汪明朴王瑞李周朱家俊彭坤李德意李绍禄

机构地区 School of Materials Science and Engineering College of Materials Science and Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2008年第2期372-377,共6页 Transactions of Nonferrous Metals Society of China

基金 Project(05JJ3005)supported by the Natural Science Foundation of Hunan Province,China

关键词铜薄膜离子磁电管 Cu-W thin film adhesive strength ion beam magnetron sputtering interface

分类号 TB383.2 [一般工业技术—材料科学与工程]

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参考文献15

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Enhanced adhesion of Cu-W thin films by ion beam assisting bombardment implanting 被引量：2

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