[1] Ashiqur Rahman, M., and Chowdhuri, M.A.K., "Finite Difference Analysis of Short Sma Columns with Tension Compression Asymmetry", International Conference on Mechanical Engineering, Dhaka, Bangladesh, (2007).
[2] Nemat-Nasser, S., Yong Choi, J., Isaacs, B., and Lischer, W., "Experimental Observation of High-rate Buckling of Thin Cylindrical Shape-memory Shells", SPIE, University of California, San Diego, Center of Excellence for Advanced Materials, Vol. 5761, pp. 192-200, (2005).
[3] Fang, W., and Wickert, J. A., "Post Buckling of Micro Machined Beams", Department of Mechanical Engineering, Journal of Micromechanics and Microengineering, Camegie Mellon University, Vol. 4, pp. 116-123, August (1994).
[4] Brinson, L.C., and Lammering, R., "Finite Element Analysis of the Behavior of Shape Memory Alloys and Their Applications", Int. J. Soli & Structures, North Western University Deutsche Forschgsanstalt Fur Luft and Raumfahrt, Institut Fur Aeroelastik, Bunsenstrabe 10, 3400 Gottingen, Germany, Vol. 30, No. 23, pp. 3261-3280, 17 may (1993).
[5] Brinson, L.C., "One Dimensional Constitutive Behavior of Shape Memory Alloys", Journal of Intelligent Material and Structure, Vol. 4, pp. 3-6, April (1993).
[6] Rahman, M.A., "Post Buckling Characteristic of the Short Super Elastic Shape Memory Alloy Columns Experimental and Quantitatives Analysis", International Journal of Applied Mechanics and Engineering, Department of Mechanical Engineering, Bangladesh University of Engineering & Technology, Vol. 11, No. 4, pp. 941-955, (2006).
[7] علی اصغر جعفری و حسن غیاثوند، مدل یک بعدی رفتار فوق کشسان آلیاژهای حافظه دار دانشگاه خواجه نصیر الدین طوسی و دانشگاه امام حسین، اسفند (1385).
[8] Loubna, H., and Essaaidi, M., "Thermo Mecanical Behavior of Polycristalline Shape Memory Alloys in Martensitic Transformation", European Journal of Scientific Research Vol. 23, No. 3, pp. 474-474, (2008).
[9] Cui, J., Yong, S., and Olugbenga, O., "Thermoelastic Shape Memory Alloys with Extremely Small Hysteresis with Nature Materials", Vol. 5, pp. 286-290, November (2008).
[10] Stoeckel, Yu., "Super Elastic Ni-Ti Wire", Wire Journal International, pp. 45-50, March (1991).
[11] Wang, C. M., Tay, Z. Y., and Chowdhuary, A. N. R.," Examination of Cylindrical Shell Theories for Buckling of Carbon Nanotubes", International Journal of Structural Stability and Dynamics, Vol. 11, pp. 1035-1059, (2011).