Experimental Analysis of Elastic and Plastic Behavior in Ductile-Regime Machining of Glass Quartz Utilizing a Diamond Tool

Junichi Tamaki; Akihiko Kubo; Ji Wang Yan

doi:10.4028/www.scientific.net/KEM.389-390.30

Paper Titles

Study on the Subsurface Damage of Single Crystal MgO Substrates
p.7

Study on Improvement of Material Removal Rate in Chemo-Mechanical Grinding (CMG) of Si Wafer
p.13

Comparative Study on the Materials Removal Mechanism of Ceramics and Steels
p.18

Grinding of Carbon/Epoxy Composites Using Electroplated CBN Wheel with Controlled Abrasive Clusters
p.24

Experimental Analysis of Elastic and Plastic Behavior in Ductile-Regime Machining of Glass Quartz Utilizing a Diamond Tool
p.30

Characteristics of the Wheel Surface Topography in Ultra-precision Grinding of Silicon Wafers
p.36

Fractal Analysis of Self-Sharpening Phenomenon in cBN Grinding
p.42

Observation of Abrasive Grains Behavior in Contact Area of Grinding Wheel and Comparison with Grinding Wheel Model
p.48

Thermal Damage of Micro Diameter Hole Drilled by Super-High-Speed Spindle in PWB
p.55

HomeKey Engineering MaterialsKey Engineering Materials Vols. 389-390Experimental Analysis of Elastic and Plastic...

Experimental Analysis of Elastic and Plastic Behavior in Ductile-Regime Machining of Glass Quartz Utilizing a Diamond Tool

Abstract:

The elastic and/or plastic behaviors of glass quartz, the most popular optical material and a hard and brittle material, were studied experimentally from two points of view; static mode and dynamic mode. The static behaviors were investigated by a nanoindentation test and the dynamic behaviors were investigated by a single-point fly cutting (SPFC) test. In the experiments, copper was selected as a material representing soft and ductile materials. From the experiments it was found that the plastic deformation ratio of glass quartz is smaller than that of copper depending on the SPFC conditions, and the area coefficient of the pile-up has the same tendency for both glass quartz and copper.