The chromium oxide materials were prepared using Cr2O3 micropowder as main starting material, TiO2 micropowder as sintering aid, polyvinyl alcohol as binder, by a series of processes such as slurrying, spraying granul...The chromium oxide materials were prepared using Cr2O3 micropowder as main starting material, TiO2 micropowder as sintering aid, polyvinyl alcohol as binder, by a series of processes such as slurrying, spraying granulation, machine moulding and cold isostatic pressing, and firing at 1 500 ℃ for 3 h in air ( oxygen partial pressure was 2. 1× 10^4 Pa ), industrial nitrogen ( oxygen partial pressure was 1×10^3 Pa ) , pure nitrogen ( oxygen partial pressure was 10 Pa) , high purity nitrogen ( oxygen partial pressure was 0.1 Pa ) , and carbon cake embedded atmosphere ( oxygen partial pressure wtas 2.3×10-12 Pa ). Effects of oxygen partial pressures on the sintering behavior of Cr2 O3 materials were investiga- ted. The results show that ( 1 ) for 3 wt% TiO2-doped specimeas, there is a substantial dependence of sintering on oxygen partial pressure (0. 1 Pa - 2. 1 ×10^4 Pa ) , and the bulk density increases and apparent porosity decreases with oxygen partial pressure decreasing; (2) even if the oxygen partial pressure is 0. 1 Pa, the specimen without TiO2 cannot reach densification sintering; (3) under very low oxygen partial pressure of carbon embedded atmosphere, Cr2O3 materials containing TiO2 or not can attain denzification.展开更多
文摘The chromium oxide materials were prepared using Cr2O3 micropowder as main starting material, TiO2 micropowder as sintering aid, polyvinyl alcohol as binder, by a series of processes such as slurrying, spraying granulation, machine moulding and cold isostatic pressing, and firing at 1 500 ℃ for 3 h in air ( oxygen partial pressure was 2. 1× 10^4 Pa ), industrial nitrogen ( oxygen partial pressure was 1×10^3 Pa ) , pure nitrogen ( oxygen partial pressure was 10 Pa) , high purity nitrogen ( oxygen partial pressure was 0.1 Pa ) , and carbon cake embedded atmosphere ( oxygen partial pressure wtas 2.3×10-12 Pa ). Effects of oxygen partial pressures on the sintering behavior of Cr2 O3 materials were investiga- ted. The results show that ( 1 ) for 3 wt% TiO2-doped specimeas, there is a substantial dependence of sintering on oxygen partial pressure (0. 1 Pa - 2. 1 ×10^4 Pa ) , and the bulk density increases and apparent porosity decreases with oxygen partial pressure decreasing; (2) even if the oxygen partial pressure is 0. 1 Pa, the specimen without TiO2 cannot reach densification sintering; (3) under very low oxygen partial pressure of carbon embedded atmosphere, Cr2O3 materials containing TiO2 or not can attain denzification.
