Your search keyword '"Takamitsu Kuroe"' showing total 4 results

1. Study on High Precision Contour Grinding (3rd Report)

Author

Takanori Fujiwara, Toshikatsu Nakajima, Takamitsu Kuroe, and Shinya Tsukamoto

Subjects

Mechanism (engineering), Materials science, Computer simulation, Interference (communication), Mechanical engineering, Point (geometry), Grinding wheel, Edge (geometry), Chip, Grinding

Abstract

In contour grinding process with ball-end grinding wheel, successive cutting point spacing and also wheel peripheral speed change continuously on a working wheel surface. And these parameters will have an influence on grinding mechanism. Then, in order to make grinding mechanism clear, undeformed chip shape is theoretically analyzed in this paper. Fundamental relationships about substantial parameters, which represent the undeformed chip shape, such as chip thickness, chip length, interference angle and cross-sectional chip area, are theoretically analyzed. Then, in order to obtain these parameters, numerical simulation method is established. The undeformed chip shape is symmetrical form to rotational angle of cutting edge, and is extremely longer and also thinner than that in ordinary external cylindrical plunge grinding. Effects of tool and grinding conditions on the undeformed chip shape are investigated, and it made clear that an increase of wheel peripheral surface speed should be reduce cutting force affected on a grain. Furthermore, grinding force distribution on a wheel working surface is predicted considering with the chip thickness and the wheel peripheral speed.

Published

2005

2. Study on High Precision Contour Grinding (2nd Report)

Author

Takanori FUJIWARA, Shinya TSUKAMOTO, Takamitsu KUROE, and Toshikatsu NAKAJIMA

Published

2004

3. 813 Study on the high accuracy turuing of the extremely small diameter wheel : Evaluation of surface texture on the wheel

Author

Kazuhito Ohashi, Junichi Matsuoka, Hiroyuki Hasegawa, Takamitsu Kuroe, and Shinya Tsukamoto

Subjects

Materials science, Small diameter, Surface finish, Composite material

Published

2009

4. Simulation of Cam Grinding Mechanism with CNC Camshaft Grinder

Author

Takanori Fujiwara, Takamitsu Kuroe, Mitsuo Yoshikawa, Shinya Tsukamoto, and Daiki Matsubara

Subjects

Engineering, Materials science, business.industry, Mechanical Engineering, Camshaft, Mechanical engineering, Rotational speed, Curvature, Industrial and Manufacturing Engineering, Automotive engineering, Grinding, Mechanism (engineering), Mechanics of Materials, Pulverizer, Surface roughness, Head (vessel), business

Abstract

In cam grinding under constant rotation speed of a cam, grinding force and surface roughness become larger at position with higher speed ratio, because curvature radius of a cam changes continuously in one revolution of workpiece. In order to establish precision CNC cam grinding method, therefore it is indispensable to develop optimum rotation speed control of a workpiece. Then, cam grinding process with CNC camshaft grinder is analyzed theoretically, and horizontal travel speed setting of wheel head correspond to the rotation speed of a workpiece is made clear in this study. Furthermore, simulation analysis method is developed, and proposed unique 3 grinding techniques to control the rotation speed of a workpiece are investigated. In the methods, it is certified that fluctuations of the grinding results are reduced, and the precision cam grinding method is realized.

Published

2002