STATIC TESTS
Determine material characteristics through static tests.
In contrast to dynamic testing static tests involve pulling, pushing or bending samples beyond the material limits at quasi-static speed. The force-displacement curve is recorded during these tests.
In our mechanical workshop, we manufacture the required samples from basic materials or components in accordance with standards or customer requirements;
These static tests can then be used to determine the following characteristic values, among others:
- Tensile strength (material strength at break in the tensile test)
- Yield strength (start of irreversible plastic deformation, yield point)
- Elasticity limits (reversible deformation)
- E-modules
- Elongation at break (change in length)
- Constriction
- Shear stiffness (shear test)
- Bending stiffness (bending test)
- Time-stress resistance (time-stress test)
Tensile, compression, bending test
Standard test specimens or components are subjected to tension, compression, shear or bending. The force-displacement curve is recorded and evaluated.
Hardness test
Standard test specimens or components are subjected to tension, compression, shear or bending. The force-displacement curve is recorded and evaluated.
Creep rupture
In the creep rupture test, the material behavior is determined at a constant test temperature after prolonged exposure to a constant force.
