Ultrasonic Vibration Assisted Mechanical Chemical Polishing (MCP) of Silicon Carbide

Yunn Shiuan Liao; Y.P. Yu; C.W. Huang

doi:10.4028/www.scientific.net/AMR.565.255

Paper Titles

Preliminary Studies for Precision Polishing of Micro Structured Mold by Using Three-Dimensional Low Frequency Vibration Utilizing Piezoelectric Actuator Incorporated with Mechanical Amplitude Magnified Mechanism
p.231

Influence of Lapping Parameters on 6H-SiC Crystal Substrate (0001) C Surface Based on Diamond Particle
p.237

Influence of Polishing and Pressing Force on the Material Removal Rate in Fixed Abrasive Polishing with Compact Robot
p.243

Surface Roughness as a Function of Work Done by Tangential Force in Magneto-Rheological Finishing
p.249

Ultrasonic Vibration Assisted Mechanical Chemical Polishing (MCP) of Silicon Carbide
p.255

The Key Technologies and Advances of Ultra-Precision Single-Plane Polishing and Lapping Devices
p.261

Parameters Optimization on the Lapping Process with Porous Self-Generation Superabrasive Tool by Applying Taguchi Method
p.267

Experimental Study on Polishing Properties of Silicone Oil Based Magnetic Compound Fluid
p.273

Vibratory Finishing of Immobilized Cylinders
p.278

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Ultrasonic Vibration Assisted Mechanical Chemical Polishing (MCP) of Silicon Carbide

Abstract:

The mechanical chemical polishing (MCP) process which uses soft abrasives to polish hard workpiece have been employed recently to polish silicon carbide (SiC) ceramic for various applications. An ultrasonic vibration assisted apparatus is designed to investigate the effects of ultrasonic vibration on the efficiency of MCP of SiC by ferric oxide (Fe2O3) abrasives. Experimental results show that the ultrasonic vibration can effectively improve polishing efficiency; the material removal rate is increased by about 60~70%. But it does not lead to a better final surface finish. The effect is more obvious under a higher working pressure condition. It is also found that the output power of ultrasonic transducer is positively correlated with material removal rate. The rise of polishing efficiency is attributed to the increase of local asperities temperatures which promote chemical reaction of silicon carbide with oxygen to form passivation layers. The layers are removed by ferric oxide abrasives afterward.