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EFFECTS OF COOLING RATE AND POURING TEMPERATURE ON MICROSTRUCTURE AND FRACTURE TOUGHNESS OF THE INDUCTION MELTED Nb-16Si-22Ti-2Hf-2Cr-2Al ALLOY
Preview AbstractThe effects of cooling rate and pouring temperature on microstructure and fracture toughness of the induction melted Nb-16Si-22Ti-2Hf-2Cr-2Al alloy were extensively investigated. The results revealed that with the decrease of cooling rates, the Nbss exhibits the dendrite-like morphology, the primary Nb5Si3 blocks form and the mean sizes of Nb5Si3, Nbss and eutectic colonies increase; with the increase of the pouring temperature, the microstructure shows columnar structure and the particles of Nb5Si3 or Nbss become long and thin. Pouring temperature and cooling rate had little influence on the volume fractions of Nbss and Nb5Si3 and their compositions. The Nb3Si phase eliminated in the case of high pouring temperature and slow cooling rate. Fracture toughness of the alloy prepared by induction melting is on the order of 13.7 to 15.3 MPa·m1/2. Similar fracture toughness value of each slab may be ascribes to the same volume fraction of the Nbss.