In-situ magnesia-rich spinel fiber was formed resulting from the addition of ferrocene into MgO-C refractory matrixes. The formation of in-situ spinel fiber was detected to start at 1300 ℃. The amount, diameter and l...In-situ magnesia-rich spinel fiber was formed resulting from the addition of ferrocene into MgO-C refractory matrixes. The formation of in-situ spinel fiber was detected to start at 1300 ℃. The amount, diameter and length of the fibers increased with rising temperature. Ferrocene may have catalytic effects on the growth of the fibers in two aspects. First, the reaction between MgO and C and the decomposition of Al4C3 may be catalyzed at high temperature. Suitable concentration gaseous phase is then created for vapor-vapor reaction which could result in the in-situ formation of fibers. Second, Fe nanoparticle produced from ferrocene can act as catalytic droplets and catalyze the growth of the fibers. The fibers are formed via the vapor-liquid-solid and vapor-solid mechanisms. In terms of chemical thermodynamics, the partial pressure of CO and Mg(g) are found to play an important role in the in-situ fibers formation. Different concentration of vapors affects the size, amount and composition of the fibers at different temperatures. The mechanical properties of MgO-C brick was found to be improved by ferrocene addition.展开更多
MgO·Al 2O 3 spinel fibers may be obtained by thermal treatment of pressed specimens composed of Mg-Al-O materials with appropriate oxide-metal ratio at high temperature under controlled atmosphere. Their phase ...MgO·Al 2O 3 spinel fibers may be obtained by thermal treatment of pressed specimens composed of Mg-Al-O materials with appropriate oxide-metal ratio at high temperature under controlled atmosphere. Their phase composition and microstructure have been examined.展开更多
为制备多孔镁铝尖晶石纤维,首先以无水氯化铝、无水氯化镁、无水乙醇为原料,二氯甲烷为溶剂,采用非水解溶胶-凝胶法制备出干凝胶,再引入纺丝助剂聚乙烯吡咯烷酮(PVP)和助溶剂N,N-二甲基甲酰胺(DMF)制成静电纺丝溶液,利用多针头同轴静电...为制备多孔镁铝尖晶石纤维,首先以无水氯化铝、无水氯化镁、无水乙醇为原料,二氯甲烷为溶剂,采用非水解溶胶-凝胶法制备出干凝胶,再引入纺丝助剂聚乙烯吡咯烷酮(PVP)和助溶剂N,N-二甲基甲酰胺(DMF)制成静电纺丝溶液,利用多针头同轴静电纺丝法制备镁铝尖晶石凝胶-PVP前驱体纤维,经900℃煅烧合成出多孔镁铝尖晶石纤维。借助XRD和SEM研究了PVP用量(3、4和5 g)、阳离子浓度(0.216、0.288和0.360 mol·L^(-1))、静电纺丝电压(22、24和26 k V)及内液流速(0.1、0.3和0.5 m L·h^(-1))对多孔镁铝尖晶石纤维相组成和形貌的影响。结果发现:当PVP用量为4 g,阳离子浓度为0.288 mol·L^(-1),纺丝电压为24 k V,内液流速为0.3 m L·h^(-1)时,纤维物相为纯镁铝尖晶石相,纤维连续,并呈现明显的多孔结构。展开更多
基金Funded by the National Natural Science Foundation of China (No.50872125)
文摘In-situ magnesia-rich spinel fiber was formed resulting from the addition of ferrocene into MgO-C refractory matrixes. The formation of in-situ spinel fiber was detected to start at 1300 ℃. The amount, diameter and length of the fibers increased with rising temperature. Ferrocene may have catalytic effects on the growth of the fibers in two aspects. First, the reaction between MgO and C and the decomposition of Al4C3 may be catalyzed at high temperature. Suitable concentration gaseous phase is then created for vapor-vapor reaction which could result in the in-situ formation of fibers. Second, Fe nanoparticle produced from ferrocene can act as catalytic droplets and catalyze the growth of the fibers. The fibers are formed via the vapor-liquid-solid and vapor-solid mechanisms. In terms of chemical thermodynamics, the partial pressure of CO and Mg(g) are found to play an important role in the in-situ fibers formation. Different concentration of vapors affects the size, amount and composition of the fibers at different temperatures. The mechanical properties of MgO-C brick was found to be improved by ferrocene addition.
文摘MgO·Al 2O 3 spinel fibers may be obtained by thermal treatment of pressed specimens composed of Mg-Al-O materials with appropriate oxide-metal ratio at high temperature under controlled atmosphere. Their phase composition and microstructure have been examined.
文摘为制备多孔镁铝尖晶石纤维,首先以无水氯化铝、无水氯化镁、无水乙醇为原料,二氯甲烷为溶剂,采用非水解溶胶-凝胶法制备出干凝胶,再引入纺丝助剂聚乙烯吡咯烷酮(PVP)和助溶剂N,N-二甲基甲酰胺(DMF)制成静电纺丝溶液,利用多针头同轴静电纺丝法制备镁铝尖晶石凝胶-PVP前驱体纤维,经900℃煅烧合成出多孔镁铝尖晶石纤维。借助XRD和SEM研究了PVP用量(3、4和5 g)、阳离子浓度(0.216、0.288和0.360 mol·L^(-1))、静电纺丝电压(22、24和26 k V)及内液流速(0.1、0.3和0.5 m L·h^(-1))对多孔镁铝尖晶石纤维相组成和形貌的影响。结果发现:当PVP用量为4 g,阳离子浓度为0.288 mol·L^(-1),纺丝电压为24 k V,内液流速为0.3 m L·h^(-1)时,纤维物相为纯镁铝尖晶石相,纤维连续,并呈现明显的多孔结构。