Imprinting Bias Stress in Functional Composites
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概要
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We propose a simple yet effective method which allows one to attain large reversible shape changes in shape memory bimetallic composites without training procedure. It is based on the conservation of strongly anisotropic martensite microstructure artificially created in the shape memory layer. This procedure results in appearance of stress field when the shape memory layer is transformed to the austenitic state which brings about two-way shape memory effect. Utilization of this method for preparation of TiNi-based composite with a thickness of 60 μm allowed us to achieve 0.9% reversible bending deformation. It is also suggested that the implementation of this method during preparation of piezoelectric or magnetostrictive composites permits to imprint bias stress and thus to improve their characteristics without use of an external load.
- 2010-10-25
著者
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TAKAGI Toshiyuki
Institute of Fluid Science
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Miki Hiroyuki
Institute Of Fluid Science Tohoku University
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Ohtsuka Makoto
Institute For Advanced Materials Procesing Tohoku University
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Pushin Vladimir
Institute Of Metal Physics Ural Division Of Russian Academy Of Sciences
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Lebedev Gor
National University of Science and Technology"MISiS", Moscow 119049, Russia
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Ohtsuka Makoto
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University, Sendai 980-8577, Japan
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Khovaylo Vladimir
National University of Science and Technology"MISiS", Moscow 119049, Russia
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Zakharov Dmitry
National University of Science and Technology"MISiS", Moscow 119049, Russia
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Koledov Victor
V. A. Kotelnikov Institute of Radioengineering and Electronics of RAS, Moscow 125009, Russia
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Perov Evgeniy
V. A. Kotelnikov Institute of Radioengineering and Electronics of RAS, Moscow 125009, Russia
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Shavrov Vladimir
V. A. Kotelnikov Institute of Radioengineering and Electronics of RAS, Moscow 125009, Russia
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Zakharov Dmitry
National University of Science and Technology"MISiS", Moscow 119049, Russia
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Khovaylo Vladimir
National University of Science and Technology"MISiS", Moscow 119049, Russia
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Miki Hiroyuki
Institute of Fluid Science, Tohoku University, Sendai 980-8577, Japan
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Pushin Vladimir
Institute of Metal Physics, Ekaterinburg 620041, Russia
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