Development of Plastic Gears for Power Transmission : Design on Load-Carrying Capacity
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概要
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Plastic gears have various merits such as silent running, self-lubrication, and so on, but they also have some demerits such as less load-carrying capacity and unsteady life time. In our sixty-two experiments, most of the failures of plastic gears were fractures of teeth from near pitch points. On basis of these results, a new design equation for bending strength, described by the bending stress at the pitch point, is proposed. In the equation, some coefficients: tooth thickness coefficient, load increasing factor, stress correction factor, etc., are introduced to realize higher load capacity economically by making the best use of the characteristics of plastic materials.
- 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
- A Profile Calculation Method for Form Grinding Wheels -Theoretical Analysis of Error Transmission and its Application-
- 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