Author:
Wang Dongpo,Lu Shouxiang,Xu Dong,Zhang Yuanlin
Abstract
C/SiC composites are the preferred materials for hot-end structures and other important components of aerospace vehicles. It is important to reveal the material removal mechanism of ultrasound vibration-assisted grinding for realizing low damage and high efficiency processing of C/SiC composites. In this paper, a single abrasive particle ultrasound vibration cutting test was carried out. The failure modes of SiC matrix and carbon fiber under ordinary cutting and ultrasound cutting conditions were observed and analyzed. With the help of ultrasonic energy, compared with ordinary cutting, under the conditions of ultrasonic vibration-assisted grinding, the grinding force is reduced to varying degrees, and the maximum reduction ratio reaches about 60%, which means that ultrasonic vibration is beneficial to reduce the grinding force. With the observation of cutting debris, it is found that the size of debris is not much affected by the a p with ultrasound vibration. Thus, the ultrasound vibration-assisted grinding method is an effective method to achieve low damage and high efficiency processing of C/SiC composites.
Subject
General Materials Science
Reference31 articles.
1. In-situ joined CMC components;Krenkel,1997
2. Carbon-fiber-reinforced C-SiC binary matrix composites
3. Microstructure and Mechanical Property of 3D Textile C/SiC Composites Fabricated by Chemical Vapor Infiltration;Zhao,2006
4. Ceramic coatings for carbon-carbon composites;Strife;Am. Ceram. Soc. Bull.,1988
5. High-temperature advanced ceramic coatings for carbon-carbon fibre composites;Popov;Br. Caramic Proc.,1993
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