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Is rubber a linear elastic material?

Is rubber a linear elastic material?

For many materials, linear elastic models do not accurately describe the observed material behaviour. The most common example of this kind of material is rubber, whose stress-strain relationship can be defined as non-linearly elastic, isotropic, incompressible and generally independent of strain rate.

What is the stress-strain graph of a rubber band?

Answer: The stress-strain graph of rubber has an unusual shape. When the load is first applied the material is quite stiff – as the stress is increased only a small strain is observed and the gradient of the graph is high. …

Does rubber have an elastic limit?

Rubber elasticity refers to a property of crosslinked rubber: it can be stretched by up to a factor of 10 from its original length and, when released, returns very nearly to its original length. This can be repeated many times with no apparent degradation to the rubber.

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Can a material be elastic but not linear?

Nonlinear material laws Materials have elastic behaviour usually only up to a certain load, which is called the ‘yield point’. After that, the deformations are plastic. Rubber, for instance, has an elastic stress–strain curve, but the relation is not linear − in such cases nonlinear elastic models are required.

What does non-linear elastic mean?

Nonlinear elastic materials present nonlinear stress-strain relationships even at infinitesimal strains — as opposed to hyperelastic materials, where stress-strain curves become significantly nonlinear at moderate to large strains.

Is rubber a non-linear elastic?

Some materials have a non-linear relationship between stress and strain, a behavior exhibited by materials such as a rubber. These are nonlinear elastic materials for which the slope of the stress-strain curve, (ds/de)e, is the strain dependent elastic modulus, the Tangent modulus.

Is rubber non-linear?

Rubber with filler particles is a highly nonlinear material, where the effective elastic modulus typically decreases by a factor of ≈10 with increasing strain from less 10−4 to 1. Most of the drop occurs already for a very small strain, typically below 0.1.

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Why does Elastic hysteresis occur?

Elastic Hysteresis is the difference between the strain energy required to generate a given stress in a material, and the material’s elastic energy at that stress. This energy is dissipated as internal friction (heat) in a material during one cycle of testing (loading and unloading).

Why is rubber more elastic?

The ratio of stress applied on a body to the strain produced in it is defined as the Young’s modulus of that material. Note: Greater the resistance to change, greater is the elasticity of that material. Rubber gets stretched because there is strain produced in it when stress is applied.

What is the stress strain curve of rubber?

Stress-Strain Curve for Rubber. When you stretch a rubber cord to a few times its natural length, it returns to its original length after removal of the forces. That is, the elastic region is large and there is no well defined plastic flow region. Substances having large strain are called elastomers.

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What is modulus of elasticity in stress strain diagram?

⇒ Modulus of Elasticity – Slope of the initial linear portion of the stress-strain diagram. The modulus of elasticity may also be characterized as the “stiffness” or ability of a material to resist deformation within the linear range. (Steel) ≈ 30 x 106 psi (Aluminum) ≈ 10 x 106 psi

Is the stiffness of a material constant in the elastic range?

Their stress-strain diagrams show nonlinearity even in the elastic range. Their stiffness is, therefore not a constant. It varies with the applied stress. instead of Young’s modulus.

What does it mean when a material is linearly elastic?

This is a property that means that the relationship between stress and strain in the material is linear. Before a certain strain level, (sometimes small, sometimes pretty big) materials tend to “start” their strain-stress behavior win a linear way. Often, it’s only the question at which strain level materials stop being linearly elastic.