Nanomechanical properties of a nickel-base single-crystal superalloy up to 700°C

A strong temperature-dependent effect in the range from 25 degrees C to 700 degrees C in the nanomechanical behaviour has been found in a single-crystal nickel-base superalloy. The hardness of this alloy gradually increases from 25 degrees C to 400 degrees C and then rapidly decreases, in contrast to the peak tensile yield strength which occurs at around 700 degrees C. The nanomechanical response is strongly dependent on the indentation load over a wide range of temperature, which is rationalised by its unique gamma/gamma' dual-phase microstructure. The experimental measurements show that the hardness is position-sensitive owing to its unique solidified dendrite microstructure when the indentation marks span 640 mu m.