). But in order to attain an adequate description of stress-strain response for elastomers one needs to 'calibrate' a nonlinear stress-strain model to the results with all its "weird" 'tilts', which doesn't really make it a simple task (models such as hyperelastic models (for example the Mooney-Rivlin model), where the stress-strain response is given via several coefficients of strain energy potentials which don't really identify with stress or strain measures directly, but rather to a nonlinear fit to the stress-strain response (often done for example using FEA)). Some PDE codes have within them routines which do the fitting on the basis of model examples when inputted with experimental data, but overall getting an accurate result (don't know of any shortcuts with decent accuracy, meaning if you need the stress-strain response) is far more laborious than doing an engineering analysis of a tensile test of a metal.Yield strength is the amount of stress or force that a material can withstand before it experiences permanent deformation or breaks.
Elastomers are materials that can stretch and return to their original shape after being deformed. Knowing the yield strength of an elastomer is important for determining its durability and how much stress it can handle before becoming permanently deformed.
The yield strength of elastomers is typically measured through a tensile test, where a sample of the material is pulled until it deforms. The amount of force applied at the point of permanent deformation is recorded as the yield strength.
The chemical composition, processing method, and environmental conditions can all affect the yield strength of elastomers. Other factors may include the temperature, strain rate, and presence of additives or fillers in the material.
Yes, the yield strength of elastomers can change over time due to factors such as aging, exposure to chemicals or UV light, and repeated loading. It is important to consider the potential changes in yield strength when designing and using elastomers in different applications.