Effect of machining parameters on the milling process of 2.5D C/SiC ceramic matrix composites

• Published in: Machining science and technology Vol. 24; no. 2; pp. 227 - 244
• Main Authors: Zhang, Xuewei, Yu, Tianbiao, Li, Ming, Wang, Zixuan
• Format: Journal Article
• Language: English
• Published: Taylor & Francis 03.03.2020
• Subjects: C/SiC composites; Chip formation mechanism; cutting forces; machining parameters; milling; surface roughness
• ISSN: 1091-0344; 1532-2483
• DOI: 10.1080/10910344.2019.1636271

The C/SiC ceramic matrix composites are widely used for high-value components in the nuclear, aerospace and aircraft industries. The cutting mechanism of machining C/SiC ceramic matrix composites is one of the most challenging problems in composites application. Therefore, the effects of machining parameters on the machinability of milling 2.5D C/SiC ceramic matrix composites is are investigated in this article. The related milling experiments has been carried out based on the C/SiC ceramic matrix composites fixed in two different machining directions. For two different machining directions, the influences of spindle speed, feed rate and depth of cut on cutting forces and surface roughness are studied, and the chip formation mechanism is discussed further. It can be seen from the experiment results that the measured cutting forces of the machining direction B are greater than those of the in machining direction A under the same machining conditions. The machining parameters, which include spindle speed, feed rate, depth of cut and machining direction, have an important influence on the cutting force and surface roughness. This research provides an important guidance for improving the machining efficiency, controlling and optimizing the machined surface quality of C/SiC ceramic matrix composites in the milling process.