摘要
直接凝固注模成型(DCC)是一种新的近净尺寸陶瓷成型工艺;它是通过可控制反应速率的酶催化反应来实现浆料原位固化的.本文将悬浮体流变学与陶瓷浆料的成型工艺学有机结合,通过陶瓷浆料的动态弛豫实验,研究了Si3N4浆料DCC成型的凝固动力学.结果表明:“凝固时间”可以成功地描述陶瓷浆料的凝固过程,动态弛豫实验为陶瓷浆料的凝固动力学提供了一条简便可行的研究方法.在Si3N4浆料DCC成型工艺条件优化的基础上,制备出了气孔分布均匀的Si3N4坯体.
Direct coagulation casting (DCC) is a novel-net-shape method for forming ceramic green bodies, which is based on the principle of the in-situ coagulation of a powder suspension via a reaction-rate-controlled enzyme-catalyzed reaction after casting. Combining the rheology with the shape-forming technology of ceramic suspension, the coagulation kinetics of silicon nitride suspension for DCC forming were investigated. The experimental results indicate that the coagulation kinetics can be successfully studied by the dynamic relaxation experiments in terms of' coagulation time',which provides a convenient and practicable way to research the coagulation kinetics of ceramic suspension. After optimizing the processing conditions of the silicon nitride suspension for DCC forming, a green body with uniform, narrow and unimodal pore size distribution was prepared.
出处
《无机材料学报》
SCIE
EI
CAS
CSCD
北大核心
2000年第5期862-866,共5页
Journal of Inorganic Materials
关键词
氮化硅
直接凝固
注模成型
凝固动力学
陶瓷
silicon nitride
direct coagulation casting
solidification kinetics