Design of Automatic Continuity Processes of Burnishing and Electrochemical Finishing on Cylinder Surface

Pai Shan Pa

doi:10.4028/www.scientific.net/KEM.392-394.205

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Fundamental Experiment of Laminated Templates Electro-Deposition in Manufacturing Metal Part
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Study on the Key Techniques of Remote Monitoring System for Large-Scale Equipments
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Research on Manipulator Positioning Based on Stereo Vision in Virtual Environment
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Design of Automatic Continuity Processes of Burnishing and Electrochemical Finishing on Cylinder Surface
p.205

An Intelligent Optimization Approach of Feedrate Scheduling Based on Hybrid Simulation Models
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A Comprehensive Evaluation Method of Manufacturing Process Resources and Environmental Attributes and its Application
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Dynamic Modeling and Optimized Energy Distribution of a Novel Amphibian Legged Robot
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Experiment and Analysis on Near-Dry Cutting System in Titanium Alloy Deep-Hole Drilling
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HomeKey Engineering MaterialsKey Engineering Materials Vols. 392-394Design of Automatic Continuity Processes of...

Design of Automatic Continuity Processes of Burnishing and Electrochemical Finishing on Cylinder Surface

Abstract:

The subject study uses ceramic materials as a circular burnishing-tool connected with a ring-form electrode to construct a compound circular finishing-tool. In the machining process, the external cylindrical workpiece is put into the compound circular finishing-tool to execute the finishing process by automatic continuity production. By the compound production effects from the electrode and the burnishing-tool, it achieves synchronous execution of multiple effects of electrochemical finishing and burnishing. Thereby rapidly and highly efficiently making improvement on the surface roughness of external cylindrical surface; and by the burnishing process and electrochemical finishing, it enhances the mechanical properties and cleanliness on the materials surface. It is expected that the entire study could make a comprehensive assessment of the compound process characteristics of the circular burnishing-tool and automatic continuity synchronous burnishing and electrochemical finishing, seeking the optimal electrode design and experimental parameters, so that polishing techniques for the external cylindrical can be extensively applied in the future.