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AlN陶瓷表面氧化及Mo-Mn法金属化研究
引用本文:曹昌伟,冯永宝,丘泰,梁田. AlN陶瓷表面氧化及Mo-Mn法金属化研究[J]. 人工晶体学报, 2017, 46(3): 416-421
作者姓名:曹昌伟  冯永宝  丘泰  梁田
作者单位:南京工业大学材料科学与工程学院,南京,210009;南京工业大学材料科学与工程学院,南京 210009;南京三乐电子信息产业集团有限公司,南京 211800;南京三乐电子信息产业集团有限公司,南京,211800
基金项目:长江学者和创新团队计划(IRT1146),江苏高校优势学科建设工程资助项目
摘    要:对无压烧结制备的AlN陶瓷氧化处理,采用传统Mo-Mn法在预氧化后的AlN陶瓷表面制备金属化层,并在Mo-Mn金属化层表面实施镀镍制备Mo-Mn/Ni复合金属化层.研究了AlN陶瓷氧化及金属化对其导热性能、力学性能、表面相组成及显微结构的影响.结果表明:氮化铝陶瓷经过1100 ℃保温3 h的氧化处理之后,在其表面生成均匀分布的氧化铝层,热导率和抗弯强度分别提升了6.2;和26.6;.AlN陶瓷表层制备的Mo-Mn/Ni复合金属化层厚度约为28 μm,Al2O3层、Mo-Mn层与Ni层之间通过元素的相互迁移形成扩散层,层间紧密结合.金属化后陶瓷的热扩散系数较纯AlN陶瓷基体提升3.8;.

关 键 词:AlN  表面氧化  金属化  Mo-Mn法  热扩散系数,

Surface Oxidation and Metallization of AlN Ceramics by Mo-Mn Process
CAO Chang-wei,FENG Yong-bao,QIU Tai,LIANG Tian. Surface Oxidation and Metallization of AlN Ceramics by Mo-Mn Process[J]. Journal of Synthetic Crystals, 2017, 46(3): 416-421
Authors:CAO Chang-wei  FENG Yong-bao  QIU Tai  LIANG Tian
Abstract:Metallized layer was prepared by normal Mo-Mn progress on the surface of the oxidized AlN ceramics, which were prepared by pressureless sintering method.And the Mo-Mn/Ni composite metallized layer was obtained by plating nickel on the surface of the Mo-Mn metal layer.The effects of oxidation and metallization of AlN ceramics on thermal property, mechanical property, surface phase composition and microstructure were studied.The results show that a uniform Al2O3 layer is prepared on the surface of AlN ceramics after oxidized at 1100 ℃ for 3 h.Thermal conductivity and flexural strength increase by 6.2% and 26.6%, respectively.Mo-Mn/Ni composite metallization layer is generate on the oxidized AlN sample by Mo-Mn progress and electroless plating process.The thickness of the Mo-Mn/Ni composite metallization layer prepared on the suface of AlN ceramic is about 28 μm.The diffusion layer is formed among the Al2O3 layer, Mo-Mn layer and Ni layer through the migration of elements, and the interlayer combinations are tight.The thermal diffusivity increase by 3.8% compared with the AlN ceramic substrate.
Keywords:AlN  surface oxidation  metallization  Mo-Mn progress  thermal diffusivity
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