Study on Welded Structure Gears 12th Report, Calculation Method of Fillet Stress on Thin Rim Gears with a Center Web
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概要
- 論文の詳細を見る
In the 9th and 10th reports of this study, in order to investigate deformation and stress characteristics of a thin rim gear which are needed to determine the rim thickness, we calculated the deformation and stress values when concentrated and uniform distributed and uniform distributed loads act upon a thin plate shell in which one side is free and the other sides is built-in. In this report, we applied these calculations to actual gears, to propose a theoretical solution of the worst stress of tooth fillet when a uniform distributed load acts upon tip of the involute spur gears which have thin rim and center web. We examined its property by three-dimensional photo-elastic experiments.
- 一般社団法人日本機械学会の論文
著者
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Sayama Takehide
Mitsubishi Heavy Industries Ltd. Takasago Machinery Works
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Sayama Takehide
Mitsubishi Heavy Industries Ltd.
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HAYASHI Kunikazu
Tokyo Institute of Technology
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UMEZAWA Kiyohiko
Tokyo Institute of Technology
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SAYAMA Takehide
Mitsubishi Heavy Industries, Ltd., Takasago Machinery Works
関連論文
- Study on Welded Structure Gears : 13th Report, Proposal of Maximum Fillet Stress Formula on Thin Rim Gears with a Center Web
- Study on Welded Structure Gears 12th Report, Calculation Method of Fillet Stress on Thin Rim Gears with a Center Web
- Study on Welded Structure Gears : 10th Report, Deformation and Stress on a Uniformly Loaded One Side Built-in Cylindrical Shell
- Estimation of Vibration of Power Transmission Helical Gears by Means of Performance Diagrams on Vibration
- Study on Welded Structure Gears : 11th Report, Optimum Structure for Thin-rimmed Spur Gear
- Study on Welded Structure Gears : 8th Report, Analysis of Web and Rib Stresses
- Study on Welded Structure Gears : 7th Report, Analyses of Root Fillet and Rim Stresses
- Study on Welded Structure Gears : 6th Report, Effects of Web Arrangements on Root Stress and Tooth Deflection
- Study on Welded Structure Gears : 5th Report, Analyses of Root Stresses and Tooth Deflections by 3-Dimensional Finite Element Method
- Root Stresses of Helical Gears with Higher Pressure Angle
- Effects of Pressure Angle on Tooth Deflection and Root Stress
- Study on Welded Structure Gears : 4th Report, Effects of Web Arrangements on Gear Vibrations
- Study on Welded Structure Gears : 3rd Report, Effect of Web Arrangements on Dynamic Loads
- Simulation of Rotational Vibration of Spur Gears
- Effects of Contact Ratio and Profile Correction on Gear Rotational Vibration
- Study on Welded Structure Gears : 1st Report, Effect of Rim Thickness on Root Stresses and Bending Fatigue Strength
- Study on Welded Structure Gears : 2nd Report, Web Structures and Root Stress Distributions
- Bending Fatique Strength of Gear Teeth under Random Loading : Part 1,About the Gear Tooth Pulsator and the Results of Fatique Tests under Uniformly Distributed 16 Steps Program Loading
- Bending Fatique Strength of Gear Teeth under Random Loading : Part 2,Program test under gamma distributed 16 steps Loading
- Influence of Gear Error on Rotational Vibration of Power Transmission Spur Gear : 3rd Report, Accumulative Pitch Error
- The Meshing Test on Helical Gears under Load Transmission : 2nd Report, The Approximate Formula for Bending-Moment Distribution of Gear Tooth
- The Elastic Approach of a Gear Pair in Tooth end Bearing : Series C : Vibration, Control Engineering, Engineering for Industry
- Effects of Rim and Web Thicknesses on Bending Fatigue Strength of Internal Gear
- Influence of Gear Error on Rotational Vibration of Power Transmission Spur Gear : 2nd Report Waved Form Error
- Sound Radiation from a Housing Having a Latticed Rib
- Influence of Gear Errors on Rotational Vibration of Power Transmission Spur Gears : 1st Report, Pressure Angle Error and Normal Pitch Error
- The Meshing Test On Helical Gears under Load Transmission : 1st Report, The Approximate Formula for Deflections of Gear Tooth
- Study on Welded Structure Gears : 9th Report, Deformation & Stress on One Side Built-in Thin Plate Shell When Concentrated load is Applied