摘要
The hot load deformation tests of four kinds of insulating fireclay bricks were carried out using a high temperature creep furnace from Sinosteel Luoyang hlstitute of Refractories Reseorch Co. , Ltd. The testing load was fixed at 0. 069 MPa and the total testing time was with- in 6 h including the holding time of 1.5 h. The hot load defi〉rmation process of insulating fireclay bricks can be divided into three steps : ( 1 ) expansion step from room temperature to RUL Tmax;( 2 ) quick shrinkage step be- tween. RUL T and Ttest; 3 ) relatively slow shrinkage step during holding process. The deformation rate at the beginning of holding process (D0h) should be controlled withi, +0. 1%. The hot load deformation testing tem- perature of insulating fireclay bricks was optimized as the value of RUL T plus 220℃.
The hot load deformation tests of four kinds of insulating fireclay bricks were carried out using a high temperature creep furnace from Sinosteel Luoyang hlstitute of Refractories Reseorch Co. , Ltd. The testing load was fixed at 0. 069 MPa and the total testing time was with- in 6 h including the holding time of 1.5 h. The hot load defi〉rmation process of insulating fireclay bricks can be divided into three steps : ( 1 ) expansion step from room temperature to RUL Tmax;( 2 ) quick shrinkage step be- tween. RUL T and Ttest; 3 ) relatively slow shrinkage step during holding process. The deformation rate at the beginning of holding process (D0h) should be controlled withi, +0. 1%. The hot load deformation testing tem- perature of insulating fireclay bricks was optimized as the value of RUL T plus 220℃.
