Mechanism of Effect of Ultrasonic Activated Coolant on Finished Surface Roughness(Grinding technology)
スポンサーリンク
概要
- 論文の詳細を見る
The use of the ultrasonic activated coolant improves ground surface roughness compared with the use of ordinary coolant. From the evaluation of change in the working surface condition, it has been clarified that the ultrasonic activated coolant suppresses loading and wheel wear, and keeps the working surface condition well. Since the ultrasonic vibration increases the kinetic energy per width of the coolant, the activation makes the coolant easy to overcome the airflow following wheel rotation and to reach the grinding point. Furthermore, the flushing effect of the vibration acceleration prevents the deposition and weld of chips.
- 社団法人日本機械学会の論文
- 2005-10-18
著者
-
Shimizu Shinji
Sophia Univ. Tokyo Jpn
-
Shimizu Shinji
Department Of Mechanical Engineering Faculty Of Science And Technology Sophia University
-
SAKAMOTO Haruhisa
Department of Mechanical Engineering, Faculty of Science and Technology, Sophia University
-
KAJIWARA Kunio
Canon Inc.
-
OHMORI Shigetoshi
Sophia University
-
SAKAMOTO Haruhisa
Sophia University
-
Sakamoto Haruhisa
Department Of Mechanical Engineering Faculty Of Science And Technology Sophia University
-
Ohmori Shigetoshi
Department Of Mechanical Engineering Faculty Of Science And Technology Sophia University
関連論文
- New Measuring Method for Thermal Deviations Caused by Linear Axis Motion in Multi-Task Machine(Advanced Manufacturing Technology (II))
- New Measuring Method for Thermal Deviations Caused by Linear Axis Motion in Multi-task Machine(Evaluation of machine tool performance)
- Mechanism of Improvement Effect of Ultrasonically Activated Coolant on Finished Surface Roughness in Cylindrical Grinding(Advanced Manufacturing Technology (II))
- Semi-cold-air Supply System for Environmental Impact Reduction and Its Application to Surface Grinding(Grinding technology)
- Mechanism of Effect of Ultrasonic Activated Coolant on Finished Surface Roughness(Grinding technology)
- B4 Quantitative Measurement Method of Contact Stiffness of the Joint with Different Material Combination(Advanced machine tool)