Influences of Tooth Profiles upon Limiting Load for Scoring and Frictional loss of Spur Gear
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概要
- 論文の詳細を見る
Many studies on load carrying capacity of gears have been reported. But the influences of tooth profiles upon the limiting load for scoring and frictional loss are not made clear. Experiments were carried out using test gears of module m=3.5 and 4.5 to investigate the influences of tooth profiles upon limiting load for scoring and frictional loss of spur gears. The frictional loss of gears is found not dependent upon the viscosity of lubricating oil. An empirical formula for friction loss was established. This formula was expressed with mean sliding belocity V_gm. Some tendencies are recognized about the limiting load for scoring and they are dependent upon the addendum modification factors. It was found further that the increasing rate of limiting load for scoring caused by ZDTP (additive) is quite dependent upon the tooth profile.
- 一般社団法人日本機械学会の論文
著者
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Nemoto R
Department Of Mechanical And Control Engineering The University Of Electro-communications
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HAIZUKA Shoji
Junior Technical College of Electro-Communications The University of Electro-Communications
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NARUSE Chotaro
Faculty of Electro-Communications, The University of Electro-Communications
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NEMOTO Ryozo
Faculty of Electro-Communications, The University of Electro-Communications
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Naruse Chotaro
Department Of Mechanical And Control Engineering The University Of Electro-communications
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Haizuka Shoji
Department Of Mechanical And Control Engineering The University Of Electro-communications
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TAKAHASHI Hideo
postgraduate course of The University of Electro-Communications
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Naruse C
Faculty Of Engineering Kanto Gakuin University
関連論文
- Studies on Limiting Load for Scoring of Crossed Helical Gears : Effects of Kind of Material, Heat treatment and Surface Finishing
- Study on Limiting Load for Scuffing and Specific Wear of Spur Gears : Effects of Lubricating Oil and Tooth Form
- Influence of Surface Treatment, Tooth Form and Lubricating Oil on Load-Carrying Characteristics of Crossed Helical Gears
- Influences of Surface Roughness and Viscosity of Lubricating Oils upon Limiting Load for Scoring of Spur Gears : Series C : Vibration, Control Engineering, Engineering for Industry
- Studies on Limiting Load for Scoring and Frictional Loss of Hypoid Gears : Mainly Effects of Surface Treatments and Lubricating Oils
- Limiting Load for Scoring and Frictional Loss of Hypoid Gear : In Comparison with Spur Gear and Crossed Helical Gear, Using Mineral Oil and Synthetic Oil
- Studies on Frictional Loss, Temperature Rise and Limiting Load for Scoring of Spur Gear
- Studies on Frictional Loss and Temperature Rise of Spur Gears : Concentrating on the Use of Mineral Oils and Synthetic Oils
- Studies on Effects of Tip Relief upon Load Carrying Characteristics of Spur Gears : Mainly on Limiting Load for Scoring and Friction Loss
- Studies on Load Carrying Capacity of Crossed Helical Gears : Effects of kinds of Material, Surface Treatment and Lubricating Oil
- Studies on Limiting Load for Scoring and Frictional Loss Of Hypoid Gears of Klingelnberg Type
- Studies on Limiting Load for Scoring of Hypoid Gears : Mainly on Comparisons with Spur Gear Test and Disc Test
- Influences of Tooth Profiles upon Limiting Load for Scoring and Frictional loss of Spur Gear
- Effects of Oil Viscosity and Anti-wear Agent on Load Carrying Characteristics of Hypoid Gears : Mainly on Limiting Load for Scoring and Power Loss
- Effects of Viscosity of Oil and Anti-wear Agent on Limiting Load for Scoring : Concentrating on FZG Spur Gear Test Results
- Studies on Load Carrying Characteristics of Hypoid Gears : Limiting Load for Scoring, Wear and Efficiency
- Studies on Limiting Load for Scoring of Spur Gears : Effects of Zn-P Anti-Wear Agent by Means of FZG Gear Test Rig
- Studies on Friction Loss of Spur Gears : Effect of Viscosity of Lubricating Oils and Tooth Forms
- Studies on the Tooth Surface Strength of Spur Gears : Effects of Lubricating Oils on Tempered Gears and Case Hardened Gears : Series C : Vibration, Control Engineering, Engineering for Industry