Growth of SiC as Binder to Adhere Diamond Particle and Tribological Properties of Diamond Particles Coated SiC
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2015年第11期
论文作者:Shengjie Yu Zhaofeng Chen Yang Wang Shuwei Hu Ruiying Luo Sheng Cui
文章页码:1133 - 1138
摘 要:The purpose of this work was to grow SiC as binder to adhere diamond particles to graphite substrate by low pressure chemical vapor deposition(LPCVD) at 1100 °C and 100 Pa using methyltrichlorosilane(MTS: CH3 SiCl3) as precursor. The composite coatings on graphite substrates were analyzed by various techniques. Results show that a dense SiC coating with a cloud-cluster shape was formed both on the diamond particles and the substrate after deposition. The thermal stress(290.6 MPa) strengthened the interfacial bonding between the diamond particle and the SiC coating, which is advantageous for the purpose of adhering diamond particles to graphite substrate. The applied load of sliding wear test was found to affect not only the friction coefficient, but also the wear surface morphology. With increasing loads, the asperity penetration was high and the friction coefficient decreased.
Shengjie Yu1,Zhaofeng Chen1,Yang Wang1,Shuwei Hu1,Ruiying Luo2,Sheng Cui3
1. Super Insulation Composite Laboratory, College of Materials Science and Technology, Nanjing University of Aeronautics and Astronautics2. Center of Materials Physics and Chemistry, School of Physics and Nuclear Energy Engineering, Beijing University of Aeronautics and Astronautics3. College of Materials Science and Engineer, Nanjing Tech University
摘 要:The purpose of this work was to grow SiC as binder to adhere diamond particles to graphite substrate by low pressure chemical vapor deposition(LPCVD) at 1100 °C and 100 Pa using methyltrichlorosilane(MTS: CH3 SiCl3) as precursor. The composite coatings on graphite substrates were analyzed by various techniques. Results show that a dense SiC coating with a cloud-cluster shape was formed both on the diamond particles and the substrate after deposition. The thermal stress(290.6 MPa) strengthened the interfacial bonding between the diamond particle and the SiC coating, which is advantageous for the purpose of adhering diamond particles to graphite substrate. The applied load of sliding wear test was found to affect not only the friction coefficient, but also the wear surface morphology. With increasing loads, the asperity penetration was high and the friction coefficient decreased.
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