Effect of Addendum Modification Coefficient on Bending Strength of Internal Gear
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概要
- 論文の詳細を見る
An internal gear which meshed with three planet gears in the same bearing condition and was supported through a thin cylinder was chosen as the subject of study. Stresses in profile shifted internal gears whose addendum modification coefficients were x=0.5 and -0.5 respectively were analyzed by the photoelastic method and were compared with those in the standard internal gear investigated in a previous work and consequently the following were revealed. The effect of an addendum modification on the fillet stresses produced in the internal gear increases with a decrease in both the rim thickness the number of teeth of internal gear.
- 一般社団法人日本機械学会の論文
著者
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Ishida Takeshi
Faculty Of Engineerng Yamaguchi University
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Ishida Takeshi
Faculty Of Engineering Yamaguchi University
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HIDAKA Teruaki
Faculty of Engineerng, Yamaguchi University
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UCHIDA Fumiaki
Microelectronics Center, Tokyo Shibaura Electric Co. Ltd.
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Hidaka Teruaki
Faculty Of Engiineering Yamaguchi University
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Uchida Fumiaki
Microelectronics Center Tokyo Shibaura Electric Co. Ltd.
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HIDAKA Teruaki
Faculty of Engineering, Yamaguchi University
関連論文
- Deflection along Line of Action of Idle Gear with both Thin Rim and Radial Clearance between Rim and Gear Shaft : Series C : Vibration, Control Engineering, Engineering for Industry
- Theoretical analysis of nominal stress in rim of planet gear
- Bending Stress Analysis of Idle Gear with Thin Rim : Effect of Rim Thickness on Stresses
- Bending Stress Analysis of Idle Gear with Thin Rim : Effects of Tooth Load and Radial Clearance between Rim and Gear Shaft on Stresses
- Effect of Addendum Modification Coefficient on Bending Strength of Internal Gear
- Effects of Rim Thickness and Number of Teet on Bending Strength of Internal Gear
- On the Relation between the Run-Out Errors and the Motion of the Center of Sun Gear In a Stoeckicht Planetary Gear
- Dynamic Behavior of Planetary Gear : 1st Report Load Distribution in Planetary Gear
- Analysis of Dynamic Tooth Load on Planetary Gear
- Effects of Errors of Elements on Load Distribution in Planetary Gears with Various Load Equalizing Mechanisms
- Dynamic Behavior of Planetary Gear : 7th Report, Influence of the Thickness of the Ring Gear
- Dynamic Behavior of Planetary Gear : 6th Report, Influence of Meshing-Phase
- Dynamic Behavior of Planetary Gear : 5th report, Dynamic Increment of Torque
- Dynamic Behavior of Planetary Gear : 4th Report, Influence of the Transmitted Tooth Load on the Dynamic Increment Load
- Dynamic Behavior of Planetary Gear : 2nd Report, Displacement of Sun Gear and Ring Gear
- Dynamic Behavior of Planetary Gear : 3rd Report, Displacement of Ring Gear in Direction of Line of Action