Creep and Fatigue Testing at High Temperature

Based on the patented Kappa 100 SS-CF creep test machine, ZwickRoell now also provides a precisely controlled test solution, with which thermo-mechanical material fatigue can be simulated. The material is inductively heated, the hydraulic grips and the HT extensometer are water cooled for protection from the high temperatures. A TMF controller synchronizes mechanical and thermal loading. As an alternative system combination, the Kappa 100 SS-CF is used with a 3-zone furnace for temperatures up to 1,200 °C. With these testing systems, material fatigue and crack growth are simulated through variable cyclic loads. A contact-type HT extensometer, which is also water-cooled, is used to record deformation. The test programs for creep-fatigue test, such as creep crack growth (CCG), low-cycle fatigue (LCF), creep-fatigue (CF), fatigue crack growth rates (FCGR) and creep-fatigue crack growth (CFGR) are included in testXpert R.

For creep tensile tests in air up to 1,500 °C, systems are available based on the Kappa 50 SS creep test machine. They are equipped with a 3-zone high temperature furnace and a ceramic load string up to 1,500 °C for round and flat specimens. With the laserXtens HP/TZ non-contact extensometer measurements can be performed up to break, without influence on the specimen and without damaging the extensometer.

At a glance:

• The Kappa series from ZwickRoell provides high precision and highly versatile creep test machines
• Thermo-mechanical fatigue testing with induction heating and air cooling
• Creep tests in air up to 1,500 °C with ceramic load string and non-contact laserXtens extensometer
• Simulation of material fatigue or crack growth up to 1,200 °C