[1] کاظمی بازاردهی، ر.، م. بیات. "بررسی رفتار و خواص مکانیکی آلیاژهای حافظهدار." مهندسی مکانیک، ش. 100، س. 24، 1394.
[2] Larsson, W. C., P. Thomsen, B. O. Aronsson, P. Tengvall, M. Rodahl, J. Lausmaa, B. Kasemo, L. E. Ericson. "Bone response to surface-modified titanium implants: studies on the early tissue response to implants with different surface characteristics." International Journal of Biomaterial, 2013, pp. 412-482.
[4] Patriarca, L., H. Sehitoglu. "High-temperature superelasticity of Ni50.6Ti24.4Hf25.0 shape memory alloy." Scripta Materialia, 2015.
[5] Duerig, T. W, J. Albrecht, G. H. Gessinge. "A shape-memory alloy for high temperature applications." Journal of Metals, 1982, pp.14-20.
[6] Amanda, R., C. Chaterine, A. R. Pelton, T. Christin. "Effects of Hydrogen on phases & transition temperatures of NiTi", proceeding of the international conference on shape memory and superelastic technologies, 2006, pp. 185-195.
[7] Pelton, A. R, T. Christine, G. Xiao Yang, W. Andreas, C. Katherine. "Structural & diffusional effects of Hydrogen in NiTi." Proceeding of SMST, 2003, pp 33-42.
[8] Sonoda, T, A. Watazu, J. Zhu, W. Shi, K. Kato, T. Asahina. "Structure and mechanical properties of pure titanium film deposited ontoTiNi shape memory alloy substrate by magnetron DC sputtering." Thin Solid Films, 2004, 459, pp. 212–15.
[9] Zhu, F., J. Pelton. “Oxidation of NiTi”, Proceeding of international conference on Shape memory and Superelastic Technology, 2003, pp. 357-366.
[10] Chan, Y. L, S. L. Wu, X. M. Liu, K. Chu Paul, K. W. K. Yeung, W. Lu, A. H. W. Ngan, K. Luk, D. Chan, K. Cheung. “Mechanical properties, bioactivity and corrosion resistance of oxygen and sodium plasma treated nickel titanium shape memory alloy.” Surface & Coatings Technology, 2007, 202, pp.1308-12.