机构地区:[1]School of Materials Science and Engineering, University of Science and Technology Beijing [2]School of Materials Science and Engineering, Beijing University of Aeronautics and Astronautics
出 处:《Rare Metals》2013年第5期502-511,共10页稀有金属(英文版)
基 金:supported by the National Natural Science Foundation of China (No. 51271027);the National High Technology Research and Development Program of China (No. 2013AA031601)
摘 要:Abstract The as-cast microstructures and solidification paths of the Nb-Si-Ti ternary alloys in the NbsSi3-TisSi3 region were investigated. Since there exist some isomor- phous compounds in the NbsSi3-TisSi3 region, such as aNbsSi3 with B3Cr5 prototype, 13NbsSi3 with Si3W5 pro- totype, 7NbsSi3 with MnsSi3 prototype, and TisSi3 with MnsSi3 prototype, the primary solidification areas of these compounds were not typically indentified in previous experiments. In the present paper, the microstructure observation, the phase identification, and the composition measurement were performed using scanning electron microscopy (SEM), X-ray diffraction (XRD), and electron probe microanalysis (EPMA), respectively. No ternary compound is found. There exist three primary solidification areas, 13Nbs_x(Ti)xSi3, ~Nbs_x(Ti)xSi3, and Tis-x(Nb)xSi3 in the NbsSi3-TisSi3 region. Together with the literaturereported experimental data and optimization results, the liquidus projection of the whole Nb-Si-Ti ternary system is constructed, and totally ten primary solidification areas-- diamond-Si, Nb1-x(Ti)xSi2, Ti1-x(Nb)xSi2, Ti1-x(Nb)xSi, Ti5-x(Nb)xSi4, βNb5-x(Ti)xSi3,αNb5-x(Ti)xSi3, Ti5-x (Nb)xSi3, (Nb,Ti)3Si, and BCC--and nine transitional invariant reactions-L + Nb1-x(Ti)xSi2 → Ti1-x(Nb)x Si2 + Si, L + Nb1-x(Ti)xSi2 → Ti1-x(Nb)xSi2 + Ti5- (Nb)xSi4, L + Ti5-x(Nb)xSi4 → Ti1-x(Nb)xSi2 + Ti1-x (Nb)xSi, L + 13Nb5-x(Ti)5Si3→ Nb1-x(Ti)xSi2 + Ti5-x (Nb)xSi4, L + βNb5-x(Ti)xSi3→b5-x(Ti)xSi3 +Ti5-x (Nb)xSi4, L + αNb5-x(Ti)αSi3 → Ti5-x(Nb)xSi3 + Ti5-x(Nb)x Si4, L + αNb5-x(Ti)xSi3 →βNb5-x(Ti)xSi3 + Ti5-x(Nb)xSi3, L + βNb5-xTb-xSi3 → Ti5-x(Nb)xSi3 + (Nb,Ti)3Si, and L + (Nb,Ti)3Si → Ti5-x(Nb)xSi3 + BCC are confirmed.Abstract The as-cast microstructures and solidification paths of the Nb-Si-Ti ternary alloys in the NbsSi3-TisSi3 region were investigated. Since there exist some isomor- phous compounds in the NbsSi3-TisSi3 region, such as aNbsSi3 with B3Cr5 prototype, 13NbsSi3 with Si3W5 pro- totype, 7NbsSi3 with MnsSi3 prototype, and TisSi3 with MnsSi3 prototype, the primary solidification areas of these compounds were not typically indentified in previous experiments. In the present paper, the microstructure observation, the phase identification, and the composition measurement were performed using scanning electron microscopy (SEM), X-ray diffraction (XRD), and electron probe microanalysis (EPMA), respectively. No ternary compound is found. There exist three primary solidification areas, 13Nbs_x(Ti)xSi3, ~Nbs_x(Ti)xSi3, and Tis-x(Nb)xSi3 in the NbsSi3-TisSi3 region. Together with the literaturereported experimental data and optimization results, the liquidus projection of the whole Nb-Si-Ti ternary system is constructed, and totally ten primary solidification areas-- diamond-Si, Nb1-x(Ti)xSi2, Ti1-x(Nb)xSi2, Ti1-x(Nb)xSi, Ti5-x(Nb)xSi4, βNb5-x(Ti)xSi3,αNb5-x(Ti)xSi3, Ti5-x (Nb)xSi3, (Nb,Ti)3Si, and BCC--and nine transitional invariant reactions-L + Nb1-x(Ti)xSi2 → Ti1-x(Nb)x Si2 + Si, L + Nb1-x(Ti)xSi2 → Ti1-x(Nb)xSi2 + Ti5- (Nb)xSi4, L + Ti5-x(Nb)xSi4 → Ti1-x(Nb)xSi2 + Ti1-x (Nb)xSi, L + 13Nb5-x(Ti)5Si3→ Nb1-x(Ti)xSi2 + Ti5-x (Nb)xSi4, L + βNb5-x(Ti)xSi3→b5-x(Ti)xSi3 +Ti5-x (Nb)xSi4, L + αNb5-x(Ti)αSi3 → Ti5-x(Nb)xSi3 + Ti5-x(Nb)x Si4, L + αNb5-x(Ti)xSi3 →βNb5-x(Ti)xSi3 + Ti5-x(Nb)xSi3, L + βNb5-xTb-xSi3 → Ti5-x(Nb)xSi3 + (Nb,Ti)3Si, and L + (Nb,Ti)3Si → Ti5-x(Nb)xSi3 + BCC are confirmed.
关 键 词:Nb-Si-Ti ternary system Liquidus projection Microstructure Solidification path
分 类 号:TG111[金属学及工艺—物理冶金]
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