Study on Ultrasonic Cavitaion Field of Power Ultrasonic Honing

Ce Guo; Xi Jing Zhu; Guo Dong Liu

doi:10.4028/www.scientific.net/AMR.690-693.3284

Paper Titles

Experimental Investigation on Thermal Characteristics of Hollow Ball Screw in Different Working Conditions
p.3266

Inflection Points Processing of Continuous Tiny Line Segments for CNC System High-Speed Machining
p.3271

Research on the Influence of Harmonics on High-Speed Permanent Magnet Motor
p.3275

Study on Spindle Dynamic Errors of Domestic NC Machine Tools
p.3279

Study on Ultrasonic Cavitaion Field of Power Ultrasonic Honing
p.3284

Research and Application of Dynamic Secondary Cooling Control Method for Slab Caster of CISDI
p.3289

The Improvement of Laminar Cooling System for Hot Rolled Strip Base on Rolling Process
p.3295

Experimental Research on Acoustic Parameters and Saturation of Gas Hydrate-Bearing Sediments
p.3299

Study on Flaw Detection in Welding Zone of Diamond Saw Blade
p.3303

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 690-693Study on Ultrasonic Cavitaion Field of Power...

Study on Ultrasonic Cavitaion Field of Power Ultrasonic Honing

Abstract:

Power ultrasonic honing is an advanced precision grinding technology, with ultrasonic vibration applied on the oilstone surface. The high frequency vibration of oilstone make cutting fluid appear cavitation effect, which make acoustic field of power ultrasonic honing present instability and complex, and even appear chatter and noise. In this paper, the cavitation mechanism of power ultrasonic honing is explained, and the oilstone radiated pressure are obtained. Furthermore, the dynamics and radiated pressure model of cavitation bubble in the grinding area is established and analysed. Finally, the pressure of oilstone surface is measured by ultrasonic sound intensity measuring instrument. It shows that the acoustic pressure radiated from oilstone with theoretical calculations and simulations are one order higher than cavitational threshold value of cutting fluid, ultrasonic cavitation occurs. Cavitation bubbles have been nonlinear vibration with high frequency, great amplitude and up to 107 Pa orders pressure, which seriously affect the workpiece processing quality and oilstone life. Comparisons between theoretical analysis and experimental verification have shown a satisfactory agreement.