Journal of the Korean Institute of Telematics and Electronics (대한전자공학회논문지)
- Volume 24 Issue 3
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- Pages.433-438
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- 1987
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- 1016-135X(pISSN)
Behavior of $Sb_2O_3$ in the Calcination Process of ZnO Varistor
ZnO 바리스터의 하소과정에서 $Sb_2O_3$ 의 거동
- Choi, Jin Seog (Dept. of Materials Eng., Hanyang Univ.) ;
- Mah, Jae Pyung (Dept. of Materials Eng., Hanyang Univ.) ;
- Paek, Su-Hyon (Dept. of Materials Eng., Hanyang Univ.)
- 최진석 (한양대학교 재료공학과) ;
- 마재평 (한양대학교 재료공학과) ;
- 백수현 (한양대학교 재료공학과)
- Published : 1987.03.01
Abstract
The current-voltage characteristics of the ZnO varisor with and without Sb2O3 which were fabricated with the various calcination and sintering temperature were discussed by comparing the results of SEM-microstructures and X-ray diffraction analysis. The samples were calcined at the temperature up to 800\ulcorner for 2 hours and they were sintered at 1200-1300\ulcorner for 1 hour. Then, we applied the power up to dc 200 volt to the samples and measured the output current up to 100mA. The samples without Sb2O3 had lower nonlinear resistances at the all calcination and sintering temperatures due to the large grains because of not forming Spinel phase. The other samples contained Sb2O3 could form Pyrochlore and Spinel phases at the all calcination temperatures by X-ray diffraction phase analysis. We found that the Spinel phases which were formed at the calcination process inhibit growth of ZnO grain and give rise to the change of nonlinear resistances by SEM-microstructures. And we found that the base of ZnO grain growth control is strongly dependent on the behavior of Sb2O3 in calcination process.
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