Memory alloy - Nitinol alloy
What is Nitinol alloy?
The Nitinol alloy is one of many form memory alloys that (SMA), can be restored to its original shape following deformation. SMA are used in many industries, such as consumer electronics and aerospace. SMAs are popular because they offer designers the ability to easily replace old materials. Due to its high biocompatibility as well as superelasticity, the Nitinol Alloy is very popular in medical devices. It is used for making brackets, guidewires, stones baskets. filters, needles and other surgical instruments.
The development history of Nitinol alloy
William J. Buehler (US Naval Laboratory) and Frederick Wang  created a series of engineering alloys which had a unique form memory effect. These alloys were known as Ni-Ti shape memories alloy, or Nitinol. Nitinol alloy refers generally to NiTi alloys of almost equal atomic mass. The United States Naval Weapons Laboratory (code n-ol) is indicated by the addition of the word after it. It is known as the Nitinol alloy because this lab is responsible for inventing this type of alloy. The 55-Ntinol alloy is the most popular representative alloy within the Nitinol group. This type of alloy has a composition range between 5357 (weight),% Ni and the remainder being TiNi, an intermetallic compound.
The characteristics of Nitinol alloy
Superelasticity describes the phenomenon where the strain that is produced by the specimen's action under external stress exceeds its elastic limit. The strain will recover when it is unloaded. Due to external stress in the parent state, stress-induced martensitic conversion occurs. The alloy exhibits a distinct mechanical behavior, has an elastic limit that is significantly higher than normal materials, and no longer conforms to Hooke's law. Hyperelasticity does not involve thermal energy, as opposed to shape-memory properties. Hyperelasticity refers to the fact that stress is not affected by strain beyond a specific deformation range. You can divide hyperelasticity into nonlinear and linear. It is evident that the stress-strain curve for the former shows a very linear relationship between stress, strain. Nonlinear Hyperelasticity is the outcome of stress-induced Martensitic Transformation and its Inverse Transformation during loading and unloading within a specific temperature range. Also known as transformation pseudoelasticity, nonlinear Hyperelasticity also refers to the phenomenon of stress-induced martensitic transformation and its inverse transformation during loading and unloading in a certain temperature range above Af. A pseudoelasticity for phase transformation in Ni-Ti alloy can exceed 8%. With heat treatment, superelasticity can be altered in nickel-titanium alloy. Higher temperatures will cause hyperelasticity to drop.
The price of Nitinol Alloy
Particle size and purity in Nitinol alloy will impact the product's cost. The purchase volume may also have an effect on the cost. Large quantities of smaller amounts will result in a lower price. On our official website, you can see the Price for Nitinol Alignment.
Nitinol alloy supplier
Technology Co. Ltd., is a trustworthy and quality global manufacturer and supplier of chemicals. With more than 12 years experience, it can provide high quality chemical materials and nanotechnology products, such as nitride powders, graphite and sulfide powders, and even 3D printing powders. You can contact us anytime to inquire about high-quality and affordable nitinol alloy.