The irfluences of C/S mass ratio and kieserite im-pregnation on performance of 95-grade magnesia bricks prepared using sintered magnesia DBM95 as main start-ing material, silica fi, me and limestone as additives were ...The irfluences of C/S mass ratio and kieserite im-pregnation on performance of 95-grade magnesia bricks prepared using sintered magnesia DBM95 as main start-ing material, silica fi, me and limestone as additives were researched. The cold and hot physical properties were tested according to Chinese standards on refractories. The hydration resistance was determined in a high pres-sure autoclave with 0. 55 MPa of water vapor pressure for different holding times of 0. 5 h, 3 h, and 5 h. The tri-al results show ( 1 ) adding silica fume to decrease C/S ratio from 0. 84 to 0. 33 improves sintering property; addin,g limestone to increase C/S ratio J?om 0. 84 to 1.95 causes more pores and negatively influences physi-cal properties: BD decreases, AP increases, MOR and CCS decrease generally, but HMOR increases obviously; (2) for non-impregnated specimens, adjusting C/S mass ratio can not improve hydration resistance; (3) the impregnation with kieserite solution can improve hydra-tion resistance of magnesia bricks significantly.展开更多
文摘The irfluences of C/S mass ratio and kieserite im-pregnation on performance of 95-grade magnesia bricks prepared using sintered magnesia DBM95 as main start-ing material, silica fi, me and limestone as additives were researched. The cold and hot physical properties were tested according to Chinese standards on refractories. The hydration resistance was determined in a high pres-sure autoclave with 0. 55 MPa of water vapor pressure for different holding times of 0. 5 h, 3 h, and 5 h. The tri-al results show ( 1 ) adding silica fume to decrease C/S ratio from 0. 84 to 0. 33 improves sintering property; addin,g limestone to increase C/S ratio J?om 0. 84 to 1.95 causes more pores and negatively influences physi-cal properties: BD decreases, AP increases, MOR and CCS decrease generally, but HMOR increases obviously; (2) for non-impregnated specimens, adjusting C/S mass ratio can not improve hydration resistance; (3) the impregnation with kieserite solution can improve hydra-tion resistance of magnesia bricks significantly.