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    Characterizing Fatigue Response of Nickel-Titanium Alloys by Rotary Beam Testing

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    Fatigue information has been reliable in predicting wire critical structural integrity. The aim of this study is to expound on the characterization technique of rotary beam fatigue testing (RBT). By alternating tension and compression stress states through RBT, it is possible to determine the life expectancy of Nitinol monofilament round wires. Fatigue testing has been employed to characterize the influence of subtle changes in inclusion content, chemistry variations of raw material, ingot transformation temperatures of Nitinol (NiTi), and surface finish conditions for implant grade wires. Currently, an ASTM standard does not exist that concentrates solely on fatigue testing shape memory alloys. By exploiting part geometry, this testing technique serves to compliment other characterization methods. Evaluation of fracture surfaces has proven useful in diagnosing the factors influencing failures. The utilization of fatigue data and fracture mechanics compliments tensile testing in providing information to the design engineer. Results from studying flexural endurance, statistical Weibull life assessment analysis, fracture analysis, and a determination of stress/strain levels at the site of failure have proven useful in determining desired material properties for next generation medical devices.


    Nitinol, round wire, rotary beam, fatigue, fracture, R, =-1, controlled strain

    Author Information:

    Patel, Mitesh M.
    Shape Memory Engineer, Fort Wayne Metals Research Products Corporation, Fort Wayne, IN

    Committee/Subcommittee: E08.08

    DOI: 10.1520/STP45242S