不同镁含量钢渣陶瓷的致密化机制

Densification mechanism of slag ceramics with different magnesium contents

  • 摘要: 为了获得钢渣制备陶瓷过程中,烧结温度和保温时间的影响规律及实现样品的致密化,在传统研究关于配方试制及性能检测的基础上,以钢渣、黏土等为主要原料制备出钢渣陶瓷,针对低镁样品和高镁样品,研究了烧结温度和保温时间对样品烧结性能的影响及致密化规律.基于烧结速率方程建立了烧结温度和保温时间对样品线性收缩率的函数关系.通过动力学分析,得出不同条件下的烧结激活能,分析认为不同Mg含量下陶瓷样品的致密化方式为扩散控制,低镁样品烧结温度为1000℃时,物质迁移由表面扩散控制,1100℃时,以体积扩散为主;高镁样品在1110℃以上烧结时,主要由液相烧结过程的扩散控制.

     

    Abstract: Steel slag is an industrial solid waste generated during the steelmaking process and is an important secondary resource. Since steel slag is rich in aluminosilicates, it can be used to make ceramics. The use of steel slag to prepare ceramics plays an important role in the utilization of it. In this paper, the effect of the sintering temperature and holding time on the sintering process and the densification of products during the preparation of ceramics from steel slag were explored. In particular, low magnesium (Mg) and high Mg samples were chosen for study. The Mg oxide content for the low Mg sample was 2.52% and it was 10.50% for the high Mg sample. Current studies of steel slag ceramics mainly consider the amount of steel slag, the basic formula of the trial, the subsequent performance of the test specimen, the influence of a certain element on the mechanical properties, and the crystal phase of the ceramic. In this work,the preparation of the ceramics with steel slag and clay as main raw materials was considered. By establishing the kinetic description of the sintering process, the sintering activation energy with different magnesium contents could be calculated. The sintering activation energy for the low magnesium and high magnesium ceramic samples was relatively small, and was 36 kJ·mol-1 and 54 kJ·mol-1, respectively. Meanwhile, the densification of the ceramic samples with different magnesium contents was investigated. It is concluded that the material migration mechanism is controlled by surface diffusion when the sintering temperature of the low magnesium sample is 1000℃. At 1100℃, the volume diffusion is the main control mode. When the high magnesium sample is sintered at 1110℃ or higher, the sintering process is mainly controlled by the diffusion of the liquid phase.

     

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