Simple tension experiments are very popular for elastomers. There are several standards for the testing of elastomers in tension. However, the experimental requirements for analysis are somewhat different than most standardized test methods. The most significant requirement is that in order to achieve a state of pure tensile strain, the specimen must be much longer in the direction of stretching than in the width and thickness dimensions. The objective is to create an experiment where there is no lateral constraint to specimen thinning.

Planar Tension (pure shear)

The pure shear experiment used for analysis is not what most of us would expect. The experiment appears at first glance to be nothing more than a very wide tensile test. However, because the material is nearly incompressible, a state of pure shear exists in the specimen at a 45 degree angle to the stretching direction7. The most significant aspect of the specimen is that it is much shorter in the direction of stretching than the width. The objective is to create an experiment where the specimen is perfectly constrained in the lateral direction such that all specimen thinning occurs in the thickness direction.

Equal Biaxial Extension

For incompressible or nearly incompressible materials, equal biaxial extension of a specimen creates a state of strain equivalent to pure compression. Although the actual experiment is more complex than the simple compression experiment, a pure state of strain can be achieved which will result in a more accurate material model.

Volumetric Compression

Volumetric compression is an experiment where the compressibility of the material is examined. In this experiment, a cylindrical specimen is constrained in a fixture and compressed . The actual displacement during compression is very small and great care must be taken to measure only the specimen compliance and not the stiffness of the instrument itself. The initial slope of the resulting stress-strain function is the bulk modulus. This value is typically 2-3 orders of magnitude greater than the shear modulus for dense elastomers.

Simple Compression

The compression experiment is also a popular test for elastomers. When testing for analysis, pure states of strain are desired and this is especially difficult to achieve experimentally in compression for dense materials. However, for foam materials, the error due to friction between the specimen and platen is not as significant.

Simple Shear

The simple shear experiment is ideal for soft elastomer foam materials where it is often possible to bond or glue the specimen to fixtures.

Simple Tension with Lateral Strain Measurement

The simple tension experiment for foam elastomers is made somewhat more complex with the addition of lateral strain measurement. This is neccessary because the relationship between axial and lateral strain is needed.

Testing at Non-ambient Temperature and in Saline

Material characterizations often need to be performed at non-ambient temperatures or in saline solution at body temperature.

Specimen Preparation

Material testing experiments on elastomers typically require sheets of elastomer from which test specimens are die cut. If elastomer sheets aren't available, sometimes sheets can be skived from thicker slabs or actual parts.