Masahisa Chino scite author profile

Masahisa Chino

5Publications

8Citation Statements Received

15Citation Statements Given

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How they cite others

Affiliations

Tokyo University of Agriculture and Technology

Publications

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Development of a layered manufacturing system using sheet metal-polymer lamination for mechanical parts

Sasahara

Tsutsumi

Chino

2005

Int J Adv Manuf Technol

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Layered manufacturing enables us to make 3D objects rapidly and directly from 3D-CAD data and enables us to handle any design changes. But materials such as light cured polymers, paper, or wax don't have enough strength to be used directly as mechanical parts. In order to solve such problems, layered manufacturing using both sheet metal and polymers is proposed in this paper. By using sheet metal and polymers, high strength parts with high dumping functions, suitable for use as mechanical parts can be manufactured. Also, a special unit for layered manufacturing is developed, which is designed to be coupled with a desktop NC milling machine, and can make 3D objects easily.

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Electrochemical Curved Hole Machining with Electrode Posture Control System

Sasahara

Nagao²,

Chino³

2007

Trans.JSME(C)

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Development of an Layered Manufacturing System Using Sheet Metal-Polymer Lamination and Mounting on a Machining Center

Chino

Sasahara²,

Doi³

et al. 2005

Trans.JSME(C)

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Improvement of Surface Roughness with Micro-Axial Vibration of Spindle by Pressure Pulsation of Grinding Fluid Supplied through inside of Wheel

Nomura

Takeuchi

Kusakabe

et al. 2016

AMR

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In grinding, the moving trajectories of abrasive grains are almost straight to the motion of the rotation and feed of the grinding wheel, so that grinding marks are formed continuously. As a result, surface roughness is dependent on grain size and organization of the grinding wheel. If the trajectory of the abrasive grain is wavy, the peak lines of the grinding marks will be partially removed by following the abrasive grain. This improves surface roughness. The objective of this study is to develop a mechanism to give axial vibration to the grinding wheel by the pulsation of the plunger pump, and thus to improve the surface roughness of the machined surface.

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Improvement of Surface Roughness with Micro-Axial Vibration of Spindle by Pressure Pulsation of Grinding Fluid Supplied through inside of Wheel

Nomura¹,

Takeuchi²,

Kusakabe³

et al. 2015

AMR

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Masahisa Chino

Development of a layered manufacturing system using sheet metal-polymer lamination for mechanical parts

Electrochemical Curved Hole Machining with Electrode Posture Control System

Development of an Layered Manufacturing System Using Sheet Metal-Polymer Lamination and Mounting on a Machining Center

Improvement of Surface Roughness with Micro-Axial Vibration of Spindle by Pressure Pulsation of Grinding Fluid Supplied through inside of Wheel

Improvement of Surface Roughness with Micro-Axial Vibration of Spindle by Pressure Pulsation of Grinding Fluid Supplied through inside of Wheel

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