Cold-Worked, Straight Strain Annealed, Shape Set Annealed
Shiny Black Oxide, Mechanically Polished, Ultrafine Polished, Customer Specific Requirements
Diameters from 0.01mm to 5 mm and above
Coils or Customers’ Requests
Standard seaworthy packages or as your requests
Our Nitinol wire products can be produced to engineered mechanical properties designed for your end use and manufacturing processes.
Superelastic and Shape Memory available Transformation Temperatures:
Custom Alloy Formulations Possible.
Nitinol is a nickel-titanium alloy distinguished from other materials by its shape memory and superelastic characteristics.
Nitinol wire is the most mature form of this unique superelastic and shape memory alloy, It is available in many different sizes, alloys and finishes. And, shape memory and superelastic forms are both offered. Niti shape memory alloys are gaining increasing use in the medical device industry for Nitinol catheter stents, guidewires and other critical applications.
Physical Properties of Nitinol
Melting Temperature: 1240-1310° C
Resistivity (hi-temp state): 82 uohm-cm
Resistivity (lo-temp state): 76 uohm-cm
Thermal Conductivity: 0.1 W/cm-° C
Heat Capacity: 0.077 cal/gm-° C
Latent Heat: 5.78 cal/gm; 24.2 J/gm
Magnetic Susceptibility (hi-temp):3.8 uemu/gm
Magnetic Susceptibility (lo-temp): 2.5 uemu/gm
Mechanical Properties of Nitinol
Ultimate Tensile Strength: 754 - 960 MPa or 110 - 140 ksi
Typical Elongation to Fracture: 15.5 percent
Typical Yield Strength (hi-temp): 560 MPa, 80 ksi
Typical Yield Strength (lo-temp): 100 MPa, 15 ksi
Approximate Elastic Modulus (hi-tem): 75 GPa, 11 Mpsi
Approximate Elastic Modulus (lo-temp): 28 GPa, 4 Mpsi
Approximate Poisson's Ratio: 0.3
Energy Conversion Efficiency: 5%
Work Output: ~1 Joule/gram
Customer Specific Requirements
An elastic (reversible) responses to an applied temperature, caused by a phase transformation between the austenitic and martensitic phases of a crystal.
Ms - Initial temperature for an austenite to martensite transition
Mf - Final temperature for an austenite to martensite transition
As - Initial temperature for a martensite to austenite transition
Af - Final temperature for a martensite to austenite transition
Shape Memory Alloys Description:
The term Shape Memory Alloys (SMA) is applied to a group of metallic materials that demonstrate the ability to return to some previously defined shape or size when subjected to the appropriate thermal procedure. Generally, these materials can be plastically deformed at some relatively low temperature, and upon exposure to some higher temperature they will return to their shape prior to the deformation.
Nitinol currently finds use in antennas, flexible eyeglasses, orthodontic braces, aerospace release mechanisms, medical devices like stents and endoscopic guide wires, greenhouse window openers, hot water scald-prevention valves, magicians tricks and many more.
TNTI’s nitinol wire supports the most complex of component designs requiring intricate geometric shapes. By fine-tuning the wire’s chemical composition and thermal processing, TNTI has achieved wire with the flexibility and kink-resistance central to medical device applications, including stents, catheters, endodontic files, needles, trocars, mandrels, baskets, surgical instruments, snares and guidewires.
Nitinol wire has also been useful in industrial applications, such as couplings, actuators, sealing high-pressure fuel passages, and in commercial applications such as cellphone antennae and eyeglass frames. Clients specify their desired operating temperature, and how the material should behave, and how TNTI should adjust the composition accordingly.
Nitinol, like other materials, has limitations. If a helix of wire is stretched too much, it will be permanently damages. If it is subjected to too great a force during thermal shape-memory recovery, it will lose its shape-memory. Specifically, if Nitinol is subjected to a cycle in which it is cooled, elongated by stretching, and heated without being allowed to contract (e.g., held at a constant length) the ability to do work will diminish in just a few cycles. If, on the other hand, the sample (e.g., a Nitinol wire in tension) is allowed to contract against a constant force during heating, the ability of the wire to do work may be enhanced with cycling, and the wire will quickly stabilize so that succeeding cycles are repeated.
All incoming Nitinol raw materials are inspected to ensure they meet proprietary internal specifications for chemistry, ingot transformation temperature, material homogeneity, and microstructure. Optimized to promote an exceptionally smooth and uniform surface finish quality, all wire products utilize a proprietary single and multi crystalline diamond drawing die technology. After the correct super-elastic heat treatment, medical grade Nitinol will accommodate strain up to 8% without permanent kinking at body temperature.
We provide nitinol wire in their “as drawn” condition for experimenters who wish to form and train their own shapes. They must be “cooked” (formed and annealed) in order to exhibit their shape memory properties, and the many parameters of time, temperature and processing can give wide-ranging results.
If your Nitinol product need falls outside of the standard medical grade material or the available product forms, please contact us. Our Nitinol application sales engineers will be glad to help.