Effect of partial pressure of reactive gas on chromium nitride and chromium oxide deposited by arc ion plating 被引量：1

Effect of partial pressure of reactive gas on chromium nitride and chromium oxide deposited by arc ion plating

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摘要 The effects of reactive gas partial pressure on droplet formation, deposition rate and change of preferred orientation of CrN and Cr2O3 coatings were studied. For CrN coatings, as nitrogen partial pressure increases, the number and size of droplets increases, the deposition rate initially increases obviously and then slowly, and the preferred orientation of CrN changes from high-index plane to low-index one. For Cr2O3 coatings, with the increase of oxygen partial pressure, the number and size of droplets decreases, the deposition rate decreases and the (300) becomes the preferred orientation. These differences are ascribed to the formation of CrN (with a lower melting point) and Cr2O3 (with a higher melting point) on the surface of Cr target during the deposition of CrN and Cr2O3. Complete coatings CrN or Cr2O3 film can be formed when reactive gas partial pressure gets up to 0.1 Pa. The optimized N2 partial pressure for CrN deposition is about 0.1?0.2 Pa in order to suppress the formation of droplets and the suitable O2 partial pressure for Cr2O3 deposition is approximately 0.1 Pa for the attempt to prevent the peel of the coating. The effects of reactive gas partial pressure on droplet formation, deposition rate and change of preferred orientation of CrN and Cr2O3 coatings were studied. For CrN coatings, as nitrogen partial pressure increases, the number and size of droplets increases, the deposition rate initially increases obviously and then slowly, and the preferred orientation of CrN changes from high-index plane to low-index one. For Cr2O3 coatings, with the increase of oxygen partial pressure, the number and size of droplets decreases, the deposition rate decreases and the （300） becomes the preferred orientation. These differences are ascribed to the formation of CrN （with a lower melting point） and Cr2O3 （with a higher melting point） on the surface of Cr target during the deposition of CrN and Cr2O3. Complete coatings CrN or Cr2O3 film can be formed when reactive gas partial pressure gets up to 0. l Pa. The optimized N2 partial pressure for CrN deposition is about 0.1-0.2 Pa in order to suppress the formation of droplets and the suitable 02 partial pressure for Cr2O3 deposition is approximately 0.1 Pa for the attempt to prevent the peel of the coating.

作者李明升冯长杰王福会

机构地区 Jiangxi Key Laboratory of Surface Engineering State Key Laboratory for Corrosion and Protection

出处《中国有色金属学会会刊：英文版》 CSCD 2006年第B01期276-279,共4页 Transactions of Nonferrous Metals Society of China

基金 Projects (59971052 50401022) supported by the National Natural Science Foundation of China

关键词电弧离子镀反应气体分压强氮化铬镀层氧化铬镀层钢材 chromium nitride chromium oxide arc ion plating reactive gas partial pressure

分类号 TG174 [金属学及工艺—金属表面处理]

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参考文献10

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中国有色金属学会会刊：英文版

2006年第B01期

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Effect of partial pressure of reactive gas on chromium nitride and chromium oxide deposited by arc ion plating 被引量：1

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