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Three-way actuation of shape memory composite

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The SMC belt composed of two kinds of SMAs with different phase transformation temperatures and SMP, was fabricated and the three-way (reciprocating) movement and recovery force in bending actuation were investigated. The results obtained can be summarized as follows. 1) The three-way bending movement was achived during heating and cooling, based on the characteristics of the SMA tapes and the SMP tape. 2) The recovery force decreased at first and increased thereafter during heating and decreased during cooling. The recovery force was roughly estimated by the proposed model. 3) The development and application of multi-functional SMCs with simple structure for three-dimensional actuators are highly expected.
Rocznik
Strony
443--443
Opis fizyczny
–-457, Bibliogr. 16 poz.
Twórcy
autor
autor
autor
autor
autor
  • Department of Mechanical Engineering Aichi Institute of Technology 1247 Yachigusa, Yakusa-cho Toyota, 470-0392, Japan, tobushi@aitech.ac.jp
Bibliografia
  • 1. H. Funakubo [Ed.], Shape memory alloys, Gordon and Breach Science Pub., 1–60, 1987.
  • 2. T.W. Duerig, K.N. Melton, D. Stockel, C.M. Wayman [Eds.], Engineering Aspects of Shape Memory Alloys, Butterworth-Heinemann, 1–35, 1990.
  • 3. K. Otsuka, C.M. Waymam [Eds.], Shape Memory Materials, Cambridge University Press, 1–49, 1998.
  • 4. S. Hayashi, Properties and applications of polyurethane series shape memory polymer, Int. Progr. Urethanes, 6, 90–115, 1993.
  • 5. H. Tobushi, T. Hashimoto, N. Ito, S. Hayashi, E. Yamada, Shape fixity and shape recovery in a film of shape memory polymer of polyurethane series, J. Intell. Mater. Syst. Struct., 9, 127–136, 1998.
  • 6. H. Tobushi, S. Hayashi, K. Hoshio, Y. Ejiri, Shape recovery and irrecoverable strain control in polyurethane shape-memory polymer, Sci. Technol. Adv. Mater., 9, 1–7, 2008.
  • 7. E.A. Pieczyska, S. Gadaj, W.K. Nowacki, K. Hoshio, Y. Makino, H. Tobushi, Characteristics of energy storage and dissipation in TiNi shape memory, Sci. Tech. Advanced Mater., 6, 889–894, 2005.
  • 8. H. Tobushi, T. Hachisuka, T. Hashimoto, S. Yamada, Cyclic deformation and fatigue of a TiNi shape-memory alloy wire subjected to rotating bending, Trans. ASME, J. Eng. Mater. Tech., 64, 64–70, 1998.
  • 9. H. Tobushi, E.A. Pieczyska, Y. Ejiri, T. Sakuragi, Thermomechanical properties of shape-memory alloy and polymer and their composite, Mech. Advanced Mater. Struct., 16, 236–247, 2009.
  • 10. T. Sterzl, B. Winzek, M. Mennicken, R. Nagelsdiek, H. Keul, H. Hocker, E. Quandt, Bistable shape memory thin film actuators, Smart Structures and Materials 2003, Proc. SPIE, 5053, 101–109, 2003.
  • 11. M. Kawai, Shape memory alloy composites, J. JSEM, 6, 4, 363–372, 2006.
  • 12. J.E. Manzo, E. Garcia, Active rigidity smart joint for a bat-wing micro air vehicle, Proc. IMECE, 43065, 231–241, 2007.
  • 13. Browne et al., Programmable Shims for Manufacturing and Assembly Lines, US7538472B2, U.S. Patent, 2009.
  • 14. H. Tobushi, S. Hayashi, K. Hoshio, Y. Makino, N. Miwa, Bending actuation characteristics of shape memory composite with SMA and SMP, J. Intell. Mater. Syst. Struct., 17, 1075–1081, 2006.
  • 15. H. Tobushi, S. Hayashi, Y. Sugimoto, K. Date, Two-way bending properties of shape memory composite with SMA and SMP, Materials, 2, 1180–1192, 2009.
  • 16. P.H. Lin, H. Tobushi, K. Tanaka, C. Lexcellent, A. Ikai, Recovery stress of TiNishape memory alloy under constant strain, Arch. Mech., 47, 281–293, 1995.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT4-0009-0051
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