Dynamic Friction Polishing Method Utilizing Resistance Heating for Efficient Removal of Electrically Conductive Diamond
p.325
p.325
The Detailed Performance of MCF Polishing Liquid in Nano-Precision Surface Treatment of Acrylic Resin
p.331
p.331
Polishing of Nickel Cylinder Using a Photocatalyst and Fluorescent Substance Excited by an Ultraviolet Ray
p.337
p.337
A Study on Nozzle Wear Modeling in Abrasive Waterjet Cutting
p.345
p.345
Necessary Cutting Energy in Abrasive Waterjet Machining
p.351
p.351
Modeling Material Removal in Fracture Erosion for Brittle Materials by Abrasive Waterjet
p.357
p.357
Abrasive Technology in Ceramic Restorative Dentistry
p.363
p.363
The Microchannel of Microfluidic Chip Fabrication by Micro-Powder Blasting
p.367
p.367
Study on Micro Blasting of Glass for Micro Channel Forming
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p.373
Necessary Cutting Energy in Abrasive Waterjet Machining
Abstract:
This paper introduces a new study on the modeling of AWJ necessary cutting energy. In the study, a model for prediction of the necessary cutting energy is proposed by combining physical-mathematical models and experimental methods. The effects of various jet parameters as well as the effects of the abrasive size, abrasive material and the effect of work material on the necessary cutting energy are taken into account.
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Periodical:
Advanced Materials Research (Volumes 76-78)
Pages:
351-356
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Online since:
June 2009
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© 2009 Trans Tech Publications Ltd. All Rights Reserved
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