A non-sintering fabrication method for porous Si3N4 ceramics with high porosity and high mechanical strength was proposed. Strength of the porous ceramics can be obtained by silica sol mass transfer process in hydrothermal conditions rather than a traditionally controlled high temperature sintering process. Under hydrothermal circumstances, silica sol is continuously transferred to the necks of Si4N3 powder compact, depositing there and thus consolidating the ceramic skeleton. The key of the method to obtain homogeneous microstructure and mechanical strength is how to keep the silica sol from gelatin during hydrothermal procedure. The stabilization of silica sol and its affecting factors were studied. The results indicated that ultrasonic treatment makes alkali-catalyzed silica sol remain stable even in 200 degrees C hydrothermal condition, which insures consecutive silica transportation. The effect of hydrothermal time on open porosity/mechanical strength of the porous Si4N3 ceramics were also thoroughly investigated. The porous Si4N3 ceramics with open porosity above 42% and flexural strength of 45 MPa were obtained without any high temperature sintering process. This method can be widely employed for the preparation of other porous ceramics as well.

• 出版日期2018-11
• 单位北京航空航天大学