References
- Suresh S. Fatigue of materials. 2nd ed. New York: Cambridge University Press, 1998.
- Dowling NE. Mechanical behavior of materials. 2nd ed. New Jersey: Prentice Hall Inc., 1998.
- Zienkiewicz OC, Taylor RL. The finite element method: the basis. Vol. 1. 5th ed. Woburn Butterworth- Heinemann, 2000.
- Perry MD, Chang RT. Finite element analysis of NiTi alloy stent deployment. In: Pelton, AR, Hodgson D, Russell SM, Duerig TW, editors. Proceedings, 2nd International Conference on Shape Memory and Superelastic Technologies; 1997; Pacific Grove: SMST 1997: 601–6.
- Rebelo N, Perry M. Finite element analysis for the design of nitinol medical devices. Min Invas Ther Allied Technol 2000; 9: 75–80.
- Pease M, Walsh B. Nitinol constitutive law comparison for finite element analysis. In: Pelton, AR, Hodgson D, Russell SM, Duerig TW, editors. Proceedings, 3rd International Conference on Shape Memory and Superelastic Technologies, 2000; Pacific Grove: SMST 2000: 495–500.
- Tolomeo D, Davidson S, Santinoranont M. Cyclic properties of supereleastic nitinol: design implication. In: Pelton, AR, Hodgson D, Russell SM, Duerig TW, editors. Proceedings, 3rd International Conference on Shape Memory and Superelastic Technologies, 2000; Pacific Grove: SMST 2000: 471–6.
- Interventional Cardiology Devices Branch, FDA/CDRH/ODE. Guidance for the submission of research and marketing applications for interventional cardiology devices: PTCA catheters, atherectomy catheters, lasers, intravascular stents. 1995.
- Chwirut D, Oktay HS, Ryan T. Nitinol interventional cardiology devices — FDA’s perspective. In: Pelton, AR, Hodgson D, Russell SM, Duerig TW, editors. Proceedings, 2nd International Conference on Shape Memory and Superelastic Technologies; 1997; Pacific Grove: SMST 1997: 369–77.