Morphology and properties of diamond-copper/steel matrix abrasive composites prepared by roll-bonding technique
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ORIGINAL ARTICLE
Morphology and properties of diamond-copper/steel matrix abrasive composites prepared by roll-bonding technique Wei-dong Chen 1 & Yan-guo Li 2 & Qin Zou 1,2 & Jian-chao Xiong 1 & Zhi-chao Lou 1 & Zi-Jian Jiao 1 & Shang Dang 1 & Dong-fang Yuan 1 & Yu-cheng Zhao 2 & Ming-zhi Wang 2 Received: 10 September 2019 / Accepted: 9 August 2020 # Springer-Verlag London Ltd., part of Springer Nature 2020
Abstract Diamond-copper/steel matrix abrasive composites were prepared by the roll-bonding technique. Firstly, the effects of the roll-bonding technical parameters (including sintering parameters, rolling parameters, and the component content) on the interfacial bonding strength in the composites were researched. Then, the surface macroscopic characteristics of the composites and the microstructures of the bonding interfaces were observed. The static compressive strength of the diamonds in the composites and the grinding performance of the composites were measured. Finally, the mechanisms for the effects of the roll-bonding technical parameters on the interfacial bonding strength were explored. The results showed that with increasing those parameters, the interfacial bonding strength between diamonds and the matrices displayed an initial increase and then a significant decrease. Furthermore, the optimal interfacial bonding strength (11.4 kN/m) and an excellent grinding performance (abrasive ratio of 23.2) were obtained from the diamond-steel matrix composites containing 10 vol% binder and 25% concentration of diamonds, when sintered at the temperature of 900 °C for holding time of 30 min and cold rolled at the reduction rate of 70%. The composites prepared with the optimum technical parameters had acceptable surface smoothness. In addition, the diamonds could be dispersed homogeneously in the matrices and firmly adhered to the substrates. When the diamond concentration was 25% in cold-rolling, the diamond-steel matrix composites showed better grinding performance. By improving the pressure condition of metallurgical bonding between diamonds and metal matrices from static pressure to rolling dynamic pressure, the sintering condition of temperature and holding time can be reduced and shortened, and the sintering condition effect on the interfacial bonding can be weaken. Thus, the application of the roll-bonding technique to the preparation of diamondmetal matrix composites could effectively avoid the thermal damage of diamonds caused by sintering process. Keywords Diamond-metal matrixcomposites . Interfacialbondingstrength . Static compressivestrength . Grindingperformance . Roll-bonding technique
1 Introduction Wei-dong Chen, Yan-guo Li and Qin Zou contributed equally to this work. * Qin Zou [email protected] * Ming-zhi Wang [email protected] 1
College of Mechanical Engineering, Yanshan University, Qinhuangdao 066004, Hebei, China
2
State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao 066004, Hebei, China
Diamond-metal matrix abrasive composites have been widely u
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