Examples of 'superelastic' in a sentence
Meaning of "superelastic"
superelastic (noun) - A term used in materials science and engineering to describe a material's ability to undergo large elastic deformations and recover its original shape. Superelastic materials can withstand significant strain without permanent damage and are often used in applications requiring flexibility and resilience. An example is the shape memory alloy Nitinol, known for its superelastic properties.
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- Exhibiting superelasticity; pseudoelastic.
How to use "superelastic" in a sentence
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superelastic
Superelastic characteristics may be simplistically described as follows.
The locking member is formed of a superelastic member.
Superelastic behavior is also discussed from a modeling point of view.
The projection preferably comprises a superelastic material.
A superelastic deformation cycle begins with the application of a load.
The metallic tubing may be a superelastic alloy.
These superelastic metallic alloys are commonly referred to as nitinol metal.
The core is preferably nitinol in a superelastic state.
A shape memory or superelastic metal such as nitinol is also suitable.
There are several alloys which possess superelastic properties.
A spring having superelastic properties exhibits very flat mechanical characteristics.
In the austenitic phase the alloy is resilient or superelastic.
We call that a superelastic collision.
Superelastic or pseudoelastic shape recovery alloys are well known in this art.
Useful structural materials are elastic or even superelastic materials.
See also
The superelastic alloy is preferred in order to avoid thermal control during insertion.
Such alloys also can be made to exhibit superelastic properties.
A speci c subroutine for superelastic materials was used to describe the behavior of the material.
Some guidewire designs have recommended the use of superelastic alloys.
Process for the production of a superelastic material out of a nickel and titanium alloy.
This term is understood to include thermal shape memory or superelastic materials.
Conventional shape memory and superelastic materials have a single martensite transition point.
A specially adapted staple applying device deploys the superelastic staple members.
The superelastic alloy wire also increasingly resists deformation as the stress load is increased.
A study on ways of covering the superelastic wires were also carried out.
The ultrasound transmission member comprises at least one material having superelastic properties.
The superelastic nature of the alloy provides a very unique characteristic compared to other metals.
The body is preferably made from a superelastic nickel titanium alloy.
The present work aims to perform such characterization for a thin walled NiTi superelastic tube.
A superelastic material such as Nitinol or an alloy with similar properties is particularly suitable.
Tension specimens were used to characterize the superelastic response of the materials.
Providing a superelastic file having an austenite finish temperature ; and.
The wire is preferably NiTi alloy that is superelastic at body temperature.
Either, or both superelastic and linear elastic nitinol can be used.
The alternate crystal structures give the alloy superelastic or pseudoelastic properties.
A number of superelastic NiTi alloys, commonly referred to as nitinol, are available commercially.
The surgical fasteners are preferably made from a superelastic nickel titanium alloy.
In one feature, the superelastic metal alloy behaves in a linear superelastic mode.
A synthetic resin layer covers the outer surface of the superelastic metal tube.
Of these materials, superelastic alloys are preferable.
These alternating crystal structures provide the alloy with its superelastic properties.
The wire, if it is superelastic provides the self-expandability of the current device.
These components could all be made of the same superelastic or shape memory material.
An endoprosthesis according to claim 1, wherein the metal of the filaments is superelastic.
Preferably, such material is a superelastic metal alloy.
Superelastic properties were evaluated from a plurality of loading-unloading cycles during experiments.
Of particular interest are alloys such as stainless steel and superelastic alloys such as nitinol.
Superelastic alloys are relatively flexible, good in restoring performance, and no or less plastic deforming.
The barbs and the legs are also preferably made from a superelastic nickel titanium alloy.
Through superelastic cycles, it is possible to reduce the transformation stresses to very low levels.
