铝矾土熟料

研究了结合剂种类、石墨和特级高铝矾土熟料加入量对镁铝碳（MAC）制品高温性能的影响。

Effects of variety of binder , additions of graphite and special grade high-alumina bauxite chamotte on high temperature properties of magnesia-alumina-carbon ( MAC ) products were studied .

以含钛高炉渣、硅灰、高铝矾土熟料和炭黑为原料，采用碳热还原氮化法合成了（Ca，Mg）α′2Sialon2AlN2TiN粉。

With titanium-bearing blast furnace slag , silica fume , bauxite chalmette and carbon black as raw materials , ( Ca , Mg )α′ - Sialon-AlN-TiN powders were synthesized by carbothermal reduction-nitridation ( CRN ) .

以三聚磷酸钠为分散剂，以特级高铝矾土熟料为骨料和细粉，加入5%的SiO2微粉，骨料的配方选取合适的粒度分布系数（q值取0.26~0.30）制备试样。

Selecting proper distribution coefficient q value between 0.26 to 0.30 , we prepare the specimen with the main materials of high-alumina bauxite , microsilica ( 5 % ) and with sodium tripolyphosphate as dispersant .

试验结果表明，以烧结良好的特级高铝矾土熟料为原料试制的铝硅质低水泥浇注料，用水量最少，显气孔率最低，烧后线变化率（1500℃保温3h）最小，强度最高。

The results show that the low-cement castable prepared with well-sintered special grade bauxite chamotte has low water demand , low apparent porosity , low linear change and high strength .

以一级高铝矾土熟料、中档轻烧镁砂和Al2O3超微粉等为主要原料，研究了MgO/Al2O3比对铝镁浇注料性能的影响。

Using grade ⅰ high alumina sintered bauxite , middle level light burnt magnesia and ultra fine Al 2O 3 as raw materials , the effect of MgO / Al 2O 3 ratio on properties of alumina magnesia castable was investigated .

高铝矾土熟料在中频感应炉中的应用及提高寿命的措施

The Application of High Aluminous to Medium Frequency Induction Furnace

开发和应用了以特级优质高铝矾土熟料作主料的低水泥浇注料。

The exploration and application of low cement castable with high grade quality super calcined bauxite as main raw material are introduce in this article .

根据硅线石的耐火机理，采用硅线石并配以高铝矾土熟料、粘土、碳化砖添加剂、工业磷酸结合剂，研制了节能新型硅线石免烧砖。

According to the refractory mechanism of sillimanite , develop a new type of energy-saving sillimanite non-burnt brick with alumina clinker , clay , silicon carbide additive , and industrial phosphoric acid binder .

根据水冷模块的技术特点和特殊要求，以高铝矾土熟料为主原料研制出了施工性能好、强度高、热震稳定性好、免烘烤的高炉炉身水冷模块浇注料。

The castable for water cooled die block of blast furnace stack was developed using high alumina bauxite clinker as major starting material on the basis of the technical characteristics of the water cooled die block and its special requirement for the materials .