Experimental Research on Surface Integrity of Ceramic Nanocomposites in Two-Dimensional Ultrasonic Vibration Grinding

Bo Zhao; Yan Wu; Feng Jiao; G.F. Gao; Xun Sheng Zhu

doi:10.4028/www.scientific.net/KEM.329.445

Paper Titles

Ceramic Grindability Evaluation with PCA Method
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Analysis of Mechanical Property of Crystal KDP and Simulation of Ultra-Precision Cutting Process in the Ductile Mode
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Experimental Investigation of Brittle to Ductile Transition of Single Crystal Silicon by Single Grain Grinding
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A New Complex Grinding Method for Ceramic Materials Combined with Ultrasonic Vibration and Electrodischarge Machining
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Experimental Research on Surface Integrity of Ceramic Nanocomposites in Two-Dimensional Ultrasonic Vibration Grinding
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Modeling of High Efficiency Removal in the Grinding of Aluminal/ZrO₂ Nanocomposites with the Aid of Two-Dimensional Ultrasonic Vibration
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Development of 3R Diamond Wheel by Thermoplastic Resin Bond
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Development of a Rubber-Bonded Grinding Wheel - Studies on Aspherical Grinding -
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Manufacturing Porous Diamond with Skeleton Structure from PCD by EDM and its Application to Grinding Tools
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Experimental Research on Surface Integrity of Ceramic Nanocomposites in Two-Dimensional Ultrasonic Vibration Grinding

Abstract:

The grain cutting trace of elliptical spiral in workpiece two-dimensional ultrasonic vibration grinding(WTDUVG) is defined, the reason of machining accuracy improvement by applying two-dimensional ultrasonic vibration is discussed. Adopting two-dimensional ultrasonic composite processing, the influences of grinding depth, worktable velocity, wheel granularity on the surface roughness of Al2O3/ZrO2 ceramic nanocomposites were described. Experimental results of AFM microstructure show that the material removal model in WTDUVG is dominated by ductile flow of material, some crystal refinement, the crush powder and grain pull-out are visible and there is almost no fracture. Furthermore, the surface roughness in WTDUVG with coarse grit is about 30 40% less than that in CG under identical grinding condition; the qualitative analysis of X-diffraction results indicated that the surface phases are composed of α-Al2O3, t-ZrO2 and small quality m-ZrO2, there are amorphous phase in the surface both with and without vibration grinding. M-zirconia phase transitions rule in vibration and conventional grinding was found. Under definitive grinding conditions, the material removal mechanism of inelastic deformation is the principal removal mechanism of Al2O3/ZrO2 ceramic nanocomposites, the grit size of diamond wheel and vibration grinding mode have important influence on material removal mechanism of ceramic nanocomposites.