Composites

Complex applications often demand more than one material can offer, and these composites allow engineers to leverage the strength of the sheath while utilizing the desired properties of another material without increasing the overall diameter. Our advanced processes create a solid mechanical bond between the two materials, ensuring metallurgical soundness. Discover the possibilities for your next device.

  • DFT® wire involves an outer sheath that provides not only strength but also a degree of biocompatibility while safeguarding the core material. The core material can contribute essential properties such as superelasticity, conductivity, radiopacity, resiliency, or MRI enhancement.
  • DBS® wire which is made by stranding wires of one alloy around a core of a different material, offers high conductivity, solderability, strength, and resistance to stresses in strand and cable applications. The integration of core material with the outer stranded wire provides unique advantages.

Composites

Complex applications often demand more than one material can offer, and these composites allow engineers to leverage the strength of the sheath while utilizing the desired properties of another material without increasing the overall diameter. Our advanced processes create a solid mechanical bond between the two materials, ensuring metallurgical soundness. Discover the possibilities for your next device.

  • DFT® wire involves an outer sheath that provides not only strength but also a degree of biocompatibility while safeguarding the core material. The core material can contribute essential properties such as superelasticity, conductivity, radiopacity, resiliency, or MRI enhancement.
  • DBS® wire which is made by stranding wires of one alloy around a core of a different material, offers high conductivity, solderability, strength, and resistance to stresses in strand and cable applications. The integration of core material with the outer stranded wire provides unique advantages.