Applied Sciences | |
Study on the Preparation Technology of a Ceramic Panel with a Magnetic Interlayer for an Induction Cooker | |
Yongjun Huang1  Shuangxi Wang2  Peng Chen2  Haifeng Lan2  Aijin Pan2  | |
[1] Chaozhou Three-Circle (Group) Co., Ltd., Chaozhou 521000, China;College of Engineering, Shantou University, Shantou 515063, China; | |
关键词: induction heating; composite ceramic panel; screen printing; electromagnetic slurry; finite element analysis; | |
DOI : 10.3390/app9050970 | |
来源: DOAJ |
【 摘 要 】
In order to expand the range of pot materials for induction cookers, a kind of sandwich structural composite ceramic panel that consists of an Al2O3 ceramic substrate, magnetic heating interlayer, and ZrO2 ceramic substrate was developed by combining the tape casting process and the screen printing process. In this research, the slurry composition of the functional phase, glass powder, and organic carrier was optimized for preparing the heating interlayer with excellent electromagnetic properties. The influences of the glass powder content and the magnetic layer structure on the thermal shock resistance of the composite ceramic panel were studied. The finite element model of the composite ceramic panel under thermal load was established through ANSYS software. In the range of 0.1–0.3 mm thickness of a magnetic heating interlayer, the temperature field and the macroscopic stress field of the composite ceramic panel were simulated, and the influence of the magnetic layer structure on the thermal stress distribution of the composite ceramic panel was analyzed. The experimental results showed that the magnetic layer had the best quality when the amount of glass powder added was 9 wt%. The ANSYS simulation revealed that the gradient structure of the magnetic layer could reduce the stress between the alumina layer and the magnetic layer from 308 to 192 MPa, which significantly improved the thermal shock resistance of the composite ceramic panel. Therefore, the gradient structure of the magnetic layer could ensure the stability of the composite ceramic panel after five cycles of electromagnetic heating.
【 授权许可】
Unknown