摘要
为了研究烧结刚玉骨料致密度对刚玉-尖晶石浇注料性能的影响,首先以工业Al_(2)O_(3)粉为原料制备不同致密度的烧结刚玉;然后以不同致密度的烧结刚玉为骨料制备刚玉-尖晶石浇注料,并研究了刚玉-尖晶石浇注料的致密度、强度、抗热震性和抗渣性等性能。结果发现:1)随着工业氧化铝粉成球坯体致密度的增大,制成的烧结刚玉的致密度和晶粒尺寸逐渐增大。2)随着烧结刚玉骨料致密度的增大,刚玉-尖晶石浇注料的需水性减小;烧后浇注料的致密度和常温强度增大,抗热震性变差。抗渣侵蚀性除采用体积密度为3.45 g·cm^(-3)的烧结刚玉骨料的浇注料明显较差外,其他浇注料的差别不大。3)综合考虑,烧结刚玉骨料的体积密度以3.51~3.55 g·cm^(-3)为佳。因此,不能片面地认为烧结刚玉的体积密度越大越好;过高的体积密度会导致耐火材料抗热震性能变差,并增加耐火材料单重。
In order to study the effect of the density of sintered alumina aggregate on properties of corundum-spinel castables,sintered corundum with different densities was prepared using industrial Al_(2)O_(3)powder as the raw material,which was further used as aggregates to prepare corundum-spinel castables.The density,the strength,the thermal shock resistance and the slag resistance of the corundum-spinel castables were researched.The results show that:(1)the density and the grain size of the sintered corundum gradually increase with the increase of the density of spheroidized body of industrial Al_(2)O_(3)powder;(2)with the increase of the sintered alumina aggregate density,the water demand of the corundum-spinel castables decreases;the density and the cold strength of the castables increase after firing,and the thermal shock resistance worsens;for the slag corrosion resistance,the castables are similar except the one with bulk density of 3.45 g·cm^(-3)is obviously poor;(3)overall,the optimal bulk density of the sintered alumina aggregate is 3.51-3.55 g·cm^(-3).Therefore,it cannot be unilaterally considered that the higher the bulk density of the sintered corundum,the better the properties of the castables;over high bulk density will lead to poor thermal shock resistance of refractories and increase the unit weight of refractories.
作者
李有奇
何健
张嘉良
李天罡
吕戌生
李正坤
Li Youqi;He Jian;Zhang Jialiang;Li Tiangang;Lyu Xusheng;Li Zhengkun(不详;Jiangsu Jingxin New Materials Co.,Ltd.,Yangzhou 225000,Jiangsu,China)
出处
《耐火材料》
CAS
北大核心
2022年第3期222-225,230,共5页
Refractories
关键词
烧结刚玉
致密度
刚玉-尖晶石浇注料
抗热震性
抗渣性
sintered corundum
density
corundum-spinel castable
thermal shock resistance
slag corrosion resistance