Experimental Study on New Bonding Materials for Developing Nano-Grinding Plates

Wei Peng; C.Y. Yao; Xun Lv; F.Q. Liu; Tao Gao; Ju Long Yuan

doi:10.4028/www.scientific.net/KEM.329.489

Paper Titles

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Manufacturing Porous Diamond with Skeleton Structure from PCD by EDM and its Application to Grinding Tools
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Grinding Characteristics of Boron Doped Diamond Grits Grinding Wheel
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The Effect of Workpiece Roundness of the Run-Out of CBN Electroplated Grinding Wheels
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Experimental Study on New Bonding Materials for Developing Nano-Grinding Plates
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Development of Electroplated CBN Wheel with Cemented Carbide Base for Precision Grinding of Compressor Cylinder Vane Slot
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Shear Strength of Brazed Joint between Diamond Grains and Steel Matrix Using a Ni-Cr Filler Alloy
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Theoretical Analysis and Simulation of Airflow of Super High-Speed Grinding Wheel
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Abrasion Performances of Stainless Steel/Carbon Fiber Reinforced Polyetheretherketone (PEEK) Friction Material
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 329Experimental Study on New Bonding Materials for...

Experimental Study on New Bonding Materials for Developing Nano-Grinding Plates

Abstract:

This paper describes a method for experimental development of a novel fixed abrasive nano-grinding plate (FAG-plate) which is proposed for lapping some rigid brittle materials, such as quartz crystal and silicon. The FAG plate is developed with ultraviolet-cured resin by rapid prototyping technology. The analysis shows that such FAG-plate can keep its grinding ability constant and continuous and it can make the roughness of machined surface reach to nanometer level. Based on experimental comparisons with conventional free abrasive slurry lapping plates, the lapping process using FAG-plate has several distinct advantages. One is that the machining efficiency is significantly improved. The second is that it improves the surface roughness of machined work-pieces, although it decreases the flatness tolerance of materials. Furthermore, the fixed abrasive nano-grinding plate is made by the new bonding materials- ultraviolet curing resin and thus the fabrication of FAG-plate is convenient and economical.

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Periodical:

Key Engineering Materials (Volume 329)

Pages:

489-494

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.329.489

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Online since:

January 2007

Authors:

Wei Peng, C.Y. Yao, Xun Lv, F.Q. Liu, Tao Gao, Ju Long Yuan

Keywords:

Bonding Material, Fixed-Abrasive, Lapping Plate, Nanogrinding

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