Rotating Strength of Glass-Carbon Fiber-Reinforced Hybrid Composite Discs
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概要
- 論文の詳細を見る
The rotating strength of a circumferentially fiber-reinforced disc depends on the radial strength of disc material. Increasing the rotating strength of the disc of a given composite material requires to reduce the maximum radial stress as much as possible. The utilization of the hoop effect of the outer fiber layer of high elastic modulus, as a method of reducing the radial stress, is theoretically investigated and experimentally confirmed with glass-carbon fiber-reinforced hybrid discs. Applicability of the circumferentially fiber-reinforced disc as the flywheel is discussed.
- 一般社団法人日本機械学会の論文
著者
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Hattori Toshio
Formerly Graduate Student Tokyo Institute Of Technology:hitachi Ltd. Mechanical Engineering Research
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Shiratori Eiryo
Professor Tokyo Institute Of Technology Research Laboratory Of Precision Machinery And Electronics
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Shiratori Eiryo
Professor The Research Laboratory Of Precision Machinery And Electronics Tokyo Institute Of Technolo
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Ikegami Kozo
Associate Professor Tokyo Institute Of Technology Research Laboratory Of Precision Machinery And Ele
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Ikegami Kozo
Associate Professor The Research Laboratory Of Precision Machinery And Electronics
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- The Influence of the Bauschinger Effect on the Subsequent Yield Condition
- Rotating Strength of Glass-Carbon Fiber-Reinforced Hybrid Composite Discs
- Rotating Strength of Circumferentially Fiber-Reinforced Composite Discs
- Application of the Fiber Reinforced Composite to Rotating Discs