Thermal conductivity enhancement in cutting tools by chemical vapor deposition diamond coating

P. Miranzo; M.I. Osendi; E. Garcia; A.J.S. Fernandes; V.A. Silva; F.M. Costa; R.F. Silva

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Thermal conductivity enhancement in cutting tools by chemical vapor deposition diamond coating

机译：通过化学气相沉积金刚石涂层增强切削刀具的导热性

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Two different types of chemical vapor deposition (CVD) diamond-coated tolls have been investigate: (i) 300-1000 #mu#m films brazed to WC-6 wt.% Co substrates; and (ii) 70-#mu#m-thick films directly deposited on Si_3N_4-SiC composites. Thermal diffusivity perpendicular to the tool surface was measured up to 1000 deg C by the laser flash method. Multiple-layer heat conduction models were used to appraise the effective thermal diffusivity of the film/substrate system. The thermal conductivity of the brazed samples increased up to 65% with respect to the hard metal substrate, evidencing a strong dependence on the diamond thickness. In the directly coated Si_3N_4 based tool substrates, the thermal diffusivity and the mean thermal conductivity increased up to approx10%.

机译：已经研究了两种不同类型的化学气相沉积（CVD）金刚石涂层的过路费：（i）将300-1000＃mu＃m膜钎焊到WC-6 wt。％Co基底上; （ii）直接沉积在Si_3N_4-SiC复合材料上的70-μμm厚的薄膜。垂直于工具表面的热扩散率通过激光闪光法测量到了1000摄氏度。使用多层导热模型评估薄膜/基材系统的有效热扩散率。相对于硬质金属基材，钎焊样品的热导率提高了65％，这证明了对金刚石厚度的强烈依赖性。在直接涂覆的基于Si_3N_4的工具衬底中，热扩散率和平均导热率增加了大约10％。

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来源
《Diamond and Related Materials》 |2002年第6期|共5页
作者
P. Miranzo; M.I. Osendi; E. Garcia; A.J.S. Fernandes; V.A. Silva; F.M. Costa; R.F. Silva;
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正文语种 eng
中图分类电热工业、高温制品工业;第Ⅳ族非金属元素及其无机化合物;人造宝石、合成宝石的生产;
关键词
thermal conductivity; diamond-coated tools and films; chemical vapor deposition; nitrides;

机译：导热系数;金刚石涂层的工具和薄膜;化学气相沉积;氮化物;

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机译：通过化学气相沉积金刚石涂层增强切削刀具的导热性
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4. Deposition of Ti–B–N (single and multilayer) and Zr–B–N coatings by chemical vapor deposition techniques on cutting tools [C] . H. Holzschuh* International Conference on Metallurgical Coatings and Thin Films . 2006

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6. Synthesis and Mechanical Wear Studies of Ultra Smooth Nanostructured Diamond (USND) Coatings Deposited by Microwave Plasma Chemical Vapor Deposition with He/H2/CH4/N2 Mixtures [O] . S. Chowdhury, J. Borham, S. A. Catledge, -1

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8. Simplified models of growth, defect formation, and thermal conductivity in diamond chemical vapor deposition [R] . Coltrin, M. E. , Dandy, D. S. 1996

机译：金刚石化学气相沉积中生长，缺陷形成和导热的简化模型

Thermal conductivity enhancement in cutting tools by chemical vapor deposition diamond coating

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