The CoreTest URC-628 enables the measurement of capillary pressure in rock samples and is suitable for various systems, including water-gas and water-oil systems.
"Structural integrity (operational fitness) assessments" utilize the infrastructure required for both destructive and nondestructive testing.
Failure analysis and investigation" involves the use of the necessary infrastructure for both destructive and nondestructive testing.
It enables the physical simulation and implementation of various heat cycles, allowing us to examine and optimize the effects of heat treatment technologies based on relevant technological parameters.
With the help of Gleeble 3500, the effects of the heat cycle and heat-affected zone can be simulated during bulk and resistance welding technologies, allowing for physical tests conducted with technological parameters.
The simulation of physical processes occurring during forging, pressing, and hot rolling enables the conduct of examinations and simulations based on relevant technological parameters.
During the test, the cracks and leaks of pressure-operated structures are examined, considering changes in ambient temperature and the test volume.
The test enables the performance of torsion tests under various loading conditions and allows for understanding and analyzing the behavior and strength of materials and structures under torsional stress.
The fracture toughness test measures the resistance of materials to fracture under various loading and environmental conditions.
That's correct. Thermo-mechanical fatigue testing applies both mechanical stress and heat to the material simultaneously, simulating real-world conditions where materials experience both mechanical loading and temperature variations. This helps assess how materials perform under combined thermal and mechanical stresses.
Exactly, thermal fatigue tests subject materials to various temperature cycles to understand their behavior and performance under different thermal conditions.
Absolutely, the purpose of creep tests is typically to determine the creep properties and resistance of materials under various conditions, such as high temperatures or aggressive environmental conditions.