Root and Groove Contact Analysis for Steam Turbine Blades
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概要
- 論文の詳細を見る
The reliability of the rotating blades is the most important factor in improving the reliability of steam turbines. The peak stress of the blade root and the disc groove which support the large centrifugal force of the blade should be analyzed accurately in order to assure the mechanical strength for both steady and vibratory stresses. The three-dimensional finite-element method is applied to the peak stress analysis considering slippage at the contact surface between the blade root and the disc groove. Nonlinear calculation is usually carried out to deal with the slippage effect. In this paper the appropriate methods to calculate the accurate local peak stress of the blade root and the disc groove are discussed, including nonlinear and linear analysis.
- 一般社団法人日本機械学会の論文
- 1992-10-15
著者
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Fujita K
Mitsubishi Heavy Industries Ltd. Hyogo Jpn
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MASEH Masataka
Vibration and Noise Control Laboratory, Takasago R & D Center, Mitsubishi Heavy Industries, Ltd.
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KANEKO Yasutomo
Vibration and Noise Control Laboratory, Takasago R & D Center, Mitsubishi Heavy Industries, Ltd.
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KOBAYASHI Thoru
Vibration and Noise Control Laboratory, Takasago R & D Center, Mitsubishi Heavy Industries, Ltd.
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FUJITA Katsuhisa
Vibration and Noise Control Laboratory, Takasago R & D Center, Mitsubishi Heavy Industries, Ltd.
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KADOYA Yoshiki
Takasago Machinery Works, Mitubishi Heavy Industries, Ltd.
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IKEDA Seigo
Mitsubishi Research Institute, Ltd.
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Mase M
Mitsubishi Heavy Ind. Ltd. Takasago Jpn
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Ikeda Seigo
Mitsubishi Research Institute Ltd.
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Kadoya Yoshiki
Takasago Machinery Works Mitubishi Heavy Industries Ltd.
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Kobayashi Thoru
Vibration And Noise Control Laboratory Takasago R & D Center Mitsubishi Heavy Industries Ltd.
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Kaneko Yasutomo
Vibration And Noise Control Laboratory Takasago R & D Center Mitsubishi Heavy Industries Ltd.
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Fujita Katsuhisa
Vibration And Noise Control Laboratory Takasago R & D Center Mitsubishi Heavy Industries Ltd
関連論文
- Vibrational Response Analysis of Mistuned Bladed Disk
- Optimal Design of Turbine Blade using Sensitivity Analysis
- Root and Groove Contact Analysis for Steam Turbine Blades
- Experimental Study on the Dynamic Buckling of a Cylindrical Shell due to Seismic Excitation : Plastic Buckling due to Bending Load