Simulation and Design of Experimental Equipment for Two-Phase Compulsive Circulation Flows Finishing

Sheng Qiang Yang; Wen Hui Li; Shi Chun Yang

doi:10.4028/www.scientific.net/AMR.135.319

Paper Titles

An Approximate Solution of Energy Partition in Grind-Hardening Process
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Experimental Study on the Characteristics of Surface Roughness in Ultrasonic Aided High-Speed Lapping of Engineering Ceramics
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Study on Axial Turning of Engineering Ceramics
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Quantitative Evaluation of the Uniformity of Abrasive Distribution Based on Image Processing
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Simulation and Design of Experimental Equipment for Two-Phase Compulsive Circulation Flows Finishing
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A Deterministic Method to Predict Geometrical Interference between Grinding Wheel and Workpiece for Ultra-Precision Aspherical Grinding
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Experimental Study on Deburring, Form Error and Surface Roughness in Orbital Drilling of Hardened Steel
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Mechanical Properties and Experimental Study of a Composite Polishing Plate during Super-High Polishing
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Study on Surface/Subsurface Crack Mechanism in Ultrasonic Vibration Added Grinding of Ceramics
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 135Simulation and Design of Experimental Equipment...

Simulation and Design of Experimental Equipment for Two-Phase Compulsive Circulation Flows Finishing

Abstract:

For the precise hole surface, the burr severely affects products’ performance. Considering the specific conditions of the precise hole surface finishing, a new method of two-phase compulsive circulation flows finishing is brought up. On the basic premise of defining k-ε model, numerical simulation of finishing project is done and its feasibility is defined. Experimental equipment is designed, especially, component of circulation flows formation is analyzed in detail, which provide experimental basis for process parameters and thorough research.

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Periodical:

Advanced Materials Research (Volume 135)

Pages:

319-324

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.135.319

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Online since:

October 2010

Authors:

Sheng Qiang Yang, Wen Hui Li, Shi Chun Yang

Keywords:

Design, Equipment, Finishing, Numerical Simulation, Two-Phase Flow

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References

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