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SOLUTE-VACANCY BINDING; MECHANICAL-PROPERTIES; HEAT-TREATMENTS; INCONEL
718; ZR ALLOY; PHASE; EVOLUTION; MICROSTRUCTURE; PARTICLES; ZIRCONIUMScience & Technology - Other Topics;
Abstract:
Strengthening by precipitation of second phase is the guiding principle for the development of a host of high strength structural alloys, in particular, aluminium alloys for transportation sector. Higher efficiency and lower emission demands use of alloys at higher operating temperatures (200 degrees C-250 degrees C) and stresses, especially in applications for engine parts. Unfortunately, most of the precipitation hardened aluminium alloys that are currently available can withstand maximum temperatures ranging from 150-200 degrees C. This limit is set by the onset of the rapid coarsening of the precipitates and consequent loss of mechanical properties. In this communication, we present a new approach in designing an Albased alloy through solid state precipitation route that provides a synergistic coupling of two different types of precipitates that has enabled us to develop coarsening resistant high-temperature alloys that are stable in the temperature range of 250-300 degrees C with strength in excess of 260 MPa at 250 degrees C.