Statistical Approach Optimizing Slant Feed Grinding
スポンサーリンク
概要
- 論文の詳細を見る
Micro-grinding is one of the methods to create submillimeter-structures, and it has been applied to many processes such as finishing of internal surface of fuel injector valves and dental technique. Micro-grinding has recently been required to improve ground surface roughness. Slant feed grinding is a machining method to improve finished surfaces, but the mechanism of improving ground surface roughness of slant feed grinding has not been completely clarified yet. This paper proposed a theoretical method for calculating ground surface roughness of slant feed grinding by using a statistical approach. This method can clarify the mechanism, and it can also optimize conditions of slant feed grinding. A self-developed micro-grinding device was then employed to confirm the calculation method experimentally, and the experimental results agreed with the theoretical calculation.
- 一般社団法人 日本機械学会の論文
著者
-
Yan Jiwang
Department Of Mechanical Engineering Faculty Of Engineering Kitami Institute Of Technology
-
Kuriyagawa Tsunemoto
Department Of Mechatronics And Precision Engineering Tohoku University
-
Zhou Tianfeng
Department Of Nanomechanics Graduate School Of Engineering Tohoku University
-
YAN Jiwang
Department of Mechanical Systems and Design, Graduate School of Engineering, Tohoku University
-
SHIMADA Keita
Department of Mechanical Systems and Design, Graduate School of Engineering, Tohoku University
-
LIEW Pay
Department of Mechanical Systems and Design, Graduate School of Engineering, Tohoku University
-
ZHOU Tianfeng
Department of Mechanical Systems and Design, Graduate School of Engineering, Tohoku University
関連論文
- Ultra-Precision Arc Truing and Dressing of Diamond Wheels for Aspheric Mirror Grinding
- Ulitaprecision Machining Characteristics of Poly-Crystalline Germanium
- Ultraprecision Machining Characteristics of Poly-crystalline Germanium(Ultra-precision machining)
- Experimental Study on the Ultraprecision Ductile Machinability of Single-Crystal Germanium
- The Analysis of the Load Exerted on the Implants Supporting an Overdenture Based on In Vivo Measurement
- Powder Jet Deposition of Ceramic Films(M^4 processes and micro-manufacturing for science)
- C22 Study on Nonisothermal Glass Molding Press for Aspherical Lens(Ultra-precision machining)
- Development of Micro Ultrasonic Abrasive Machining System : 1st Report, Studies in Micro Ultrasonic Abrasive Machining
- C24 Cutting Performance of a Single-crystalline Diamond Ball Endmill in Fabricating Micro Lens Arrays and Grooves(Ultra-precision machining)
- C21 Wear Mechanism of Diamond Tools in Ductile Machining of Reaction-bonded Silicon Carbide(Ultra-precision machining)
- 110 Study of Parallel Grinding Method for Aspheric Optical Elements
- Development of an AFM-Based System for In-Process Measurement of Micro-Defects on Machined Surfaces
- Modeling high-temperature glass molding process by coupling heat transfer and viscous deformation analysis
- Development of an electrorheological fluid-assisted polishing tool for micro-aspherical molding dies(M^4 processes and micro-manufacturing for science)
- Fundamental investigation of subsurface damage in single crystalline silicon caused by diamond machining
- Nondestructive measurement of machining-induced amorphous layers in single-crystal silicon by laser micro-Raman spectroscopy
- Resistance Formed in Thermoplastic Resin Substrate by Laser-Assisted Micro Powder Jet Implantation
- Improvement of the Crystal Orientation and Surface Roughness of Ru Thin Films by Introducing Oxygen during Sputtering
- Laminated Capacitor Formed in Thermoplastic Resin Substrate by Laser-Assisted Micropowder Jet Implantation
- Statistical Approach Optimizing Slant Feed Grinding