Anton Paar announces the launch of the UNHT3 HTV, the nanoindentation device designed for testing at temperatures up to 800 °C, based on Anton Paar’s longstanding experience in nanoindentation testing. The heart of the UNHT3 HTV is based on the highly successful and patented Ultra Nanoindentation Tester (UNHT). The measurement head has been optimized for high-temperature operation and combined with a patent-pending sample stage which enables measurements to be performed at any temperature within the operating range with the highest possible thermal stability. Such measurements are of particular interest to people studying:
• Discrete events under the indenter tip at elevated temperatures, e.g. elastic-plastic transition in crystals, shear band formation in metallic glasses, onset of oxidation in ceramics
• Hardness and elastic modulus at high temperatures
• Effects of oxidation, especially in metals
• Dislocation nucleation, which is best probed at very shallow indentation depths
• Mechanical properties of coatings which are to be used at elevated temperatures, as well as the effects of candidate elements which might be added to optimize strength and fracture toughness (e.g. transition metals or silicon)
• Micropillar compression testing at high temperatures to generate compressive yield or failure stress and observe deformation mechanism changes such as buckling, fracture or plastic deformation
• Creep properties of engineering materials at different temperatures
• Effects of temperature on polymers below and above their glass transition temperature (Tg)