Test equipment and test methods

Tensile and compression testing

Tensil testing machine with high temperature chamber

Servohydraulic and electromechanical testing machines with load ranges from 2 N up to 250 kN and test temperatures from –80 °C to 1900 °C. Tests in vacuum and inert gas are possible.

• Flyer "Tensile Tests at High Temperatures" [.pdf]
• Flyer "Determination of Flexural Strength" [.pdf]

Low cycle fatigue (LCF) and thermo-mechanical fatigue (TMF) testing

High temperature LCF-testing machine

Servohydraulic testing machines with induction heating and resistance furnaces up to 1100 °C and loads up to 250 kN. Tests in vacuum are possible.

• Flyer LCF-Test (pdf)
• Flyer TMF-Test (pdf)

Multiaxial testing

Axial-torsional high temperature testing machine

Axial-torsional testing to simulate multiaxiality up to 1100 °C.

Testing at high strain rate

High strain rate testing machine

Material characterization at high strain rates using a servohydraulic high strain rate testing machine for strain rates up to max. 10³ s^-1 at testing temperatures ranging from –80 °C up to 1200 °C.

Stress rupture/creep testing

Creep testing machines up to 1300°C

Testing under constant load up to 20 kN and testing temperatures up to 1300 °C in air.

Deformation measurement

Optical 3D strain field measurement

Optical technique to measure 3D-deformation between room temperature and up to ca. 900 °C applying a scanning method.

Crack propagation

Crack propagation measurement using the DC potential drop method

Optical and electrical methods to measure crack propagation between room temperature and up to ca. 1000 °C.

Hardness testing

Hardness testing

Vickers-, Brinell- und Rockwell-hardness testing machines to measure macro hardness.

Resonance technique to measure young's modulus

Elastotron testing machine

Measurement of dynamic Young's modulus in a temperature range from –40 °C to 1900 °C using the Elastotron 2000.

• Flyer "Determination of Young modulus" [.pdf]

Burst testing

Burst pressure specimen

Measurement of burst strength of ceramic foils.

• Flyer "Determination of burst strength" [.pdf]

Thermal shock testing

Thermal shock testing equipment

Determination of the resistance to thermal shock and testing of thermal fatigue by laser thermal shock experiments

• Flyer "Laser thermal shock experiments on ceramic materials" [.pdf]

top