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The Zirconia-based ceramic composites are widely used in the Automobile and Aerospace sectors because of their High-end mechanical properties such as improved hardness, durability, and strength characteristics. Many researches show that the machining of these composites is much harder than the traditional machining processes. Even though the machining was done but ended up with an unfinished surface finish, overcut, a high rate of tool wear, less material removal rate, huge time consumption, and damages. These difficulties become a great challenge to industrialists and researchers. As a part…mehr

Produktbeschreibung
The Zirconia-based ceramic composites are widely used in the Automobile and Aerospace sectors because of their High-end mechanical properties such as improved hardness, durability, and strength characteristics. Many researches show that the machining of these composites is much harder than the traditional machining processes. Even though the machining was done but ended up with an unfinished surface finish, overcut, a high rate of tool wear, less material removal rate, huge time consumption, and damages. These difficulties become a great challenge to industrialists and researchers. As a part of this issue, more research was carried out to find the best machining process for the machining of these Zirconia-silicon-based composites and revealed that the perfect machining of such composites is still an incomplete task. However, some research shows that unconventional machining processes are giving a considerable improvement in the machining of Zirconia composites. Hence, this study investigates the suitability of the Electro-Chemical Discharge Machining process for the machining of Zirconia and Zirconia Silicon Nitride Composite.
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Autorenporträt
Dr. M. Vijay is Working as a Head of the Department of Robotics and Automation, at Dhanalakshmi Srinivasan Engineering College (Autonomous), Perambalur, Tamilnadu India. Did his Ph.D. as a Full-time scholar at the Government College of Technology, Coimbatore, Tamilnadu India. His research areas are Micro Machining and electrochemical Machining.