稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
659-662
,共4页
杨雪蛟%李玉平%高朋召%刘荣正%陈功田
楊雪蛟%李玉平%高朋召%劉榮正%陳功田
양설교%리옥평%고붕소%류영정%진공전
(Zr_0.8Sn_0.2)TiO_4(ZST)%微波介质陶瓷%微波烧结%密度分布%晶粒尺寸
(Zr_0.8Sn_0.2)TiO_4(ZST)%微波介質陶瓷%微波燒結%密度分佈%晶粒呎吋
(Zr_0.8Sn_0.2)TiO_4(ZST)%미파개질도자%미파소결%밀도분포%정립척촌
ZST%microwave dielectric ceramics%microwave sintering%density distribution%crystalline size
分别采用电热和微波烧结法制备了(Zr_0.8Sn_0.2)TiO_4(ZST)微波介质陶瓷,研究了不同方法中烧结工艺制度对介质陶瓷材料密度、微观结构、相组成和微波介电性能的影响.结果表明:与电热烧结相比,在所得材料密度近似的情况下,微波烧结能降低烧结温度约70 ℃、缩短烧结时间2.5 h,所获材料密度分布的标准差大大减小;微波烧结所得材料的晶粒尺寸均匀、结构致密;材料的介电常数和品质因数随着微波烧结温度的提高而增大,对应数值分别比传统烧结方式提高17.5%和14.3%左右.并对微波烧结介质陶瓷的致密化机理以及性能进行了较为系统的理论分析.
分彆採用電熱和微波燒結法製備瞭(Zr_0.8Sn_0.2)TiO_4(ZST)微波介質陶瓷,研究瞭不同方法中燒結工藝製度對介質陶瓷材料密度、微觀結構、相組成和微波介電性能的影響.結果錶明:與電熱燒結相比,在所得材料密度近似的情況下,微波燒結能降低燒結溫度約70 ℃、縮短燒結時間2.5 h,所穫材料密度分佈的標準差大大減小;微波燒結所得材料的晶粒呎吋均勻、結構緻密;材料的介電常數和品質因數隨著微波燒結溫度的提高而增大,對應數值分彆比傳統燒結方式提高17.5%和14.3%左右.併對微波燒結介質陶瓷的緻密化機理以及性能進行瞭較為繫統的理論分析.
분별채용전열화미파소결법제비료(Zr_0.8Sn_0.2)TiO_4(ZST)미파개질도자,연구료불동방법중소결공예제도대개질도자재료밀도、미관결구、상조성화미파개전성능적영향.결과표명:여전열소결상비,재소득재료밀도근사적정황하,미파소결능강저소결온도약70 ℃、축단소결시간2.5 h,소획재료밀도분포적표준차대대감소;미파소결소득재료적정립척촌균균、결구치밀;재료적개전상수화품질인수수착미파소결온도적제고이증대,대응수치분별비전통소결방식제고17.5%화14.3%좌우.병대미파소결개질도자적치밀화궤리이급성능진행료교위계통적이론분석.
Microwave sintering and electrical-thermal sintering techniques were used to prepare the (Zr_0.8Sn_0.2)TiO_4(ZST) ceramics whose density, component, microstructure and dielectric performance were characterized by Archimedes method, X-ray diffraction (XRD), scanning electron microscopy (SEM) and HP8720ES network analyzer, etc. The results show that the microwave sintering method can decrease the sintering temperature by about 70 ℃ and the sintering time by about 2.5 h and can enhance the densification. The value of er and Q of ZST increase with the increasing of sintering temperature, and the corresponded value increases by 17.5% and 14.3% respectively, compared with electrical-thermal sintering. The densification mechanism and performance were analyzed more systematically in theory.
