Output Power Characteristics of Reciprocating Heat Engine Using Shape Memory Alloy
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概要
- 論文の詳細を見る
In order to develop the utilization technology in which unexploited energy is retrieved and transformed into power, we have proposed a heat engine incorporating shape memory alloy wires. In this work, the output power characteristics are investigated experimentally from the viewpoints of maximization of the output power, stabilization of the power during operation and the amount of work to failure. Experiments are conducted at various heating and cooling temperatures, velocities of heating and cooling water and wire diameters. As a result, it is clarified that the output power increases with increases in both the heating temperature and the velocity of heating water. The output power also increases with decreasing cooling temperature. However, the velocity of cooling water at which the output power is maximum varies with the cooling temperature. Furthermore, the amount of work to failure does not always increase with increasing fatigue life and becomes maximum under the operating conditions at which the output power becomes maximum.
- 一般社団法人日本機械学会の論文
- 1997-11-15
著者
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SAKUMA Toshio
Central Research Institute of Electric Power Industry
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Arai Masayuki
Central Research Inst. of Electric Power Ind.
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IWATA Uichi
Central Research Institute of Electric Power Industry
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Iwata U
Central Research Institute Of Electric Power Industry
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Arai Masayuki
Central Research Institute Of Electric Power Industry
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- Effect of Cyclic Deformation on Thermo-Mechanical Characteristics in Ti-Ni-Cu Alloy Wires with Various Copper Contents
- A New Fatigue Model for Titanium-Nickel-Cupper Shape Memory Alloy Subjected to Superelastic Cyclic Deformation
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- Effects of Cold Working and Heat Treatment on Transformation Temperature of Ti-41.7Ni-8.5Cu (at%) Shape Memory Alloy and Its Probabilistic Prediction
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- 212 Fabrication of Ti-Ni-Cu Shape Memory Alloys by Spark-Plasma Sintering and Their Shape Memory Characteristics