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Influence of SMAs on the attenuation of effects of P-Δ type in shear frames

  • Corbi, Ottavia (University of Naples "Federico II", Dept. "Scienza delle Costruzioni")
  • 투고 : 2003.06.02
  • 심사 : 2003.12.18
  • 발행 : 2003.12.25

초록

In the paper one investigates the benefits deriving from the introduction of SMA provisions in a structure subject to dynamic excitation and vertical loads. At this purpose one considers a multi-degree-of-freedom (mdof) shear elastic-plastic frame and designs couples of super-elastic SMA tendons to be placed at critical locations of the structure. Particular attention is focused on the reduction of $P-{\Delta}$ effects.

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참고문헌

  1. Armstrong, W.D. (1996), "A one-dimensional model of a shape memory alloy fiber reinforced aluminium metal matrix composite", J. Intelligent Material Systems and Structures, 7, 448-454. https://doi.org/10.1177/1045389X9600700410
  2. Baratta, A., Corbi, O. (2003), "On the dynamic behaviour of elastic-plastic structures equipped with pseudoelastic SMA reinforcements", J. Computational Materials Science, Elsevier Science, 25(1-2), 1-13.
  3. Baz, A., Iman, K., McCoy, J. (1990), "Active vibration control of flexible beams sing shape memory actuators", J. Sound and Vibration, 140, 437-456. https://doi.org/10.1016/0022-460X(90)90760-W
  4. Buehler, W., Wiley, R. (1965), "Nickel-based alloys", Technical Report, Naval Ordinance Lab.US-Patent 3174851.
  5. Corbi, O. (2001), "Analysis of dynamics of structures including S.M.A. members", J. Structural Control, Pitagora Ed., 8(2), 189-202. https://doi.org/10.1002/stc.4300080202
  6. Dolce, M., Cardone, D. and Marnetto, R. (2000), "Implementation and testing of passive control devices based on shape memory alloys", J. Earthquke Engineering and Structural Dynamics, 29(7), 945-968. https://doi.org/10.1002/1096-9845(200007)29:7<945::AID-EQE958>3.0.CO;2-#
  7. Duerig, T.W., Melton, K.N., Stolen, D. and Wayman, C.M. (Eds). (1990), Engineering Aspects of Shape Memory Alloys, Butterworth-Heinemann, London.
  8. Feng, Z.C., Li, D.Z. (1996), "Dynamics of a mechanical system with a shape memory alloy bar", J. Intelligent Material Systems and Structures, 7, 399-410. https://doi.org/10.1177/1045389X9600700404
  9. Funakubo, K. (1984), Shape Memory Alloy, Gordon and Breach Science Publishers. New York.
  10. Graesser, E.J., Cozzarelli, F.A. (1991), "Shape memory alloys as new materials for aseismic isolation", J. Engineering Mechanics, ASCE, 117, 2590-2608. https://doi.org/10.1061/(ASCE)0733-9399(1991)117:11(2590)
  11. Graesser, E.J., Cozzarelli, F.A. (1994), "A proposed three-dimensional constitutive model for shape memory alloys", J. Intelligent Material Systems and Structures, 5, 78-89. https://doi.org/10.1177/1045389X9400500109
  12. Ikegami, R., Wilson, D.G., Anderson, J.R., Julien, G. (1990), "Active vibration control using NyTiNOL and piezoelectric ceramics", J. Intelligent Materials and Structures, 1, 189-206. https://doi.org/10.1177/1045389X9000100204
  13. Liang, C. and Rogers, C.A. (1993), "Design of shape memory alloy springs with applications in vibration control", J. Vibration and Acoustics, 115, 129-135. https://doi.org/10.1115/1.2930305
  14. Liu, Y. and Van Humbeeck, J. (1999), "Damping capacity of shape memory alloy", Proc. MANSIDE Project, Final Workshop, Rome, Italy.
  15. Maclean, B.J., Patterson, G.J., Misra, M.S. (1991), "Modeling of a shape memory integrated actuator for vibration control of large space structures", J. Intelligent Material Systems and Structures, 2, 71-94.
  16. Muller, I. (1992), "Thermoelastic properties of shape memory alloys", Eur. J. Mechanics and Solids, 11, 173-184.
  17. Srinivasan, A.V. and McFarland, D.M. (2000), Smart Structures. Canbridge University Press, Cambridge, England.
  18. Thomson, P., Balas, G.J. and Leo, P.H. (1995), "The use of shape memory alloys for passive structural damping", J. Smart Materials Structures, 4, 36-42. https://doi.org/10.1088/0964-1726/4/1/006
  19. Wayman, C.M., Duerig, T.W. (1990), "An introduction to martensite and shape memory in engineering aspects of shape memory alloys", T.W. Duerig, K.N. Melton, D. Stolen and C.M. Wayman Eds: 3-20.
  20. Wayman, C.M. (1992), "Shape memory and related phenomena", J. Prog. Material Science, 36, 203-224. https://doi.org/10.1016/0079-6425(92)90009-V
  21. Wen, Y.K. (1976), "Method for random vibration of hysteretic systems", J. Engineering Mechanics Division, ASCE, 102(2), 249-263.