Development of Plastic Gear for Power Transmission : Economical Methods for Increasing Load-carrying Capacity
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概要
- 論文の詳細を見る
Plastic gears have many merits ; silent running, self-lubrication, corrosion-proof, etc ; but they have many demerits too ; lower load-carrying capacity, lower-thermal resistance, etc. Because the plastic is expensive, the plastic gears should be designed as small as possible. Then, plastic gears which have smaller module, pressure angle of 14.5゜, contact ratio above two and helical trace are proposed in order to increase economically their load capacities. The load capacity of a gear pair whose bending strengths are balanced by applying thick teeth to the plastic gear and thin teeth to the steel gear is double that of the usual gear pair having the same thick teeth.
- 一般社団法人日本機械学会の論文
著者
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NISHIDA Noriteru
Faculty of Engineering, Nagasaki University
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TSUKAMOTO Naohisa
Chiba Institute of Technology
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Nishida Noriteru
Faculty Of Engineering Nagasaki University
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Nishida Noriteru
Faculty Of Engineering Kyushu University.
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TERASHIMA Kenichi
Huazhonh University of Science and Technology
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Terashima Kenichi
Huazhong University Of Science And Technology
関連論文
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- Differential Reducers Using Internal Gears with Small Tooth Number Difference : The First Report, Fundamentals of Design
- Development of Plastic Gear for Power Transmission : Abnormal Wear on the Tooth Root and Tooth Fracture near Pitch Point
- Development of Plastic Gears for Power Transmission : Design on Load-Carrying Capacity
- Development of Plastic Gear for Power Transmission : Economical Methods for Increasing Load-carrying Capacity
- DEVELOPMENT OF PLASTIC GEARS FOR POWER TRANSMISSION : Power Transmission Mechanism of Plastic Gears
- A Study on Strength Design Methods of Plastic Gears : 1st Report, Calculation Method of Fatigue Strength Due to Strain Energy : Series C : Vibration Control Engineering Engineering for Industry
- Investigation about the Prevention of Tooth Profile Change of Plastic Gears (4th Report, Preventing in Tooth Profile Change by Plastic Gear Made from Low Friction Coefficient Materials) : Series C : Vibration, Control Engineering, Engineering for Industry