No, it chars on heating.
aluminum or titanium :P
Plastic deformation is a permanent unrecoverable deformation. When the load that caused the deformation is removed, the material will not return to it's original shape but will maintain it's newly deformed shape.
elastic
Honey is a liquid in its normal state, because it has the characteristics of a liquid. Liquids have a definite volume, but no fixed shape. Honey will flow to conform to the shape of its environment, such as a jar. However, honey can become a solid when it crystalizes. You can return it to liquid form by heating it.
Upon heating the covalent bond of the metals get broken and they loose their shape permanently.... so upon cooling they cannot even regain their original shape because there is no residual elasticity in it.... so there is no point of shrinking in metals.....
Elastic can be stretched and then reverts back to its original shape.
The "elastic portion" is precisely the part where the material returns to its original shape, and thus returns its energy. Once the material does NOT return to its previous shape, it doesn't exert a force back to the original position, and there is no way to get the energy back.
Elastic deformation is recoverable deformation. As such, when the load that caused the deformation is removed the material will return to it's original shape.
Elastic deformation is recoverable deformation. As such, when the load that caused the deformation is removed the material will return to it's original shape.
If a the stress of a material exceeds the yield stress, it will not be able to return to its original length or shape once the force is removed.
a smart material causes very few affects but they are great to use to re shape something like a spring when it is hit by the heat it can be remoulded and then heat hits it again and it can return to its original shape...I think? But anyway I am not sure how long it takes for a spring to be returned to its original shape and expectations.
Plastic deformation is a permanent unrecoverable deformation. When the load that caused the deformation is removed, the material will not return to it's original shape but will maintain it's newly deformed shape.
Inelastic
the physical property of a material that can return to its original shape or position after deformation that does not exceed its elastic
When a solid is stretched or compressed beyond the point that it can return to its original shape it has passed its elastic limit.
the change of shape of a metal at low temperature by loading and regaining of original shape by heating it,is known as shape memory effect
In science, elasticity is the tendency of a material to return to its original size and shape when it is released from being stretched or compressed. By this definition steel is more elastic than rubber.
Elastic Force