Fort Wayne Metals - Technical Blog

To meet the demands of cutting-edge medical device design, Fort Wayne Metals has engineered a unique composite wire that combines superelastic Nitinol with a radiopaque platinum core. In this technical deep dive, Senior Engineer Jenica Kolhoff and Dr. Jeremy Schaffer explore how varying platinum content affects mechanical performance, imaging visibility, and fatigue resistance. The findings reveal critical insights for device designers balancing precision placement and material behavior in minimally invasive applications.…

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Fort Wayne Metals introduces a new class of Nitinol-based super-elastic alloys with gigapascal-level strength and cryogenic durability. Discover how these advanced materials are enabling thinner, stronger medical devices and unlocking possibilities for space exploration.…

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Nitinol has long been the gold standard for superelastic medical devices, but its nickel content raises biocompatibility concerns. In this blog, Fort Wayne Metals explores a breakthrough Ni-free β-Ti alloy—Ti-40Hf-13Nb-4.5Sn—that offers stable superelasticity, strong fatigue resistance, and scalable manufacturing, positioning it as a promising alternative for next-generation implants.…

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