兵器材料科学与工程
兵器材料科學與工程
병기재료과학여공정
Ordnance Material Science and Engineering
2009年
6期
1-4
,共4页
李明利%杜丕一%纪松%钱坤明%倪杨
李明利%杜丕一%紀鬆%錢坤明%倪楊
리명리%두비일%기송%전곤명%예양
钛酸锶钡%复相陶瓷%微观形貌%介电性能
鈦痠鍶鋇%複相陶瓷%微觀形貌%介電性能
태산송패%복상도자%미관형모%개전성능
barium strontium titanate%composite ceramics%microstructure%dielectric property
用草酸盐共沉淀工艺制备高反应活性Ba_(0.6)Sr_(0.4)TiO_3(BST)粉体,添加10%(质量分数)的Bi_2O_3·ZnNb_2O_6(BZN)为烧结助剂,采用传统陶瓷制备工艺制备BST-BZN复相陶瓷.用扫描电镜(SEM)和X射线衍射仪(XRD)分别研究BST-BZN的微观形貌和晶相组成,并测试BST-BZN复相陶瓷的介电性能参数.结果表明,添加BZN使BST的烧结温度由1 350℃降低到1 050℃,BST晶粒粒径约为1 μm,烧结过程BZN与BST发生固溶反应,BST的XRD衍射峰向低角度偏移.BST-BZN具有良好的介电常数温度稳定性,但是由于少量Bi~(3+)对Ba~(2+)/Sr~(2+)的取代、晶粒的细化、晶界相比例增多等原因导致BST-BZN可调率降低,1 kV/mm的偏场作用下其可调率只有0.15%.
用草痠鹽共沉澱工藝製備高反應活性Ba_(0.6)Sr_(0.4)TiO_3(BST)粉體,添加10%(質量分數)的Bi_2O_3·ZnNb_2O_6(BZN)為燒結助劑,採用傳統陶瓷製備工藝製備BST-BZN複相陶瓷.用掃描電鏡(SEM)和X射線衍射儀(XRD)分彆研究BST-BZN的微觀形貌和晶相組成,併測試BST-BZN複相陶瓷的介電性能參數.結果錶明,添加BZN使BST的燒結溫度由1 350℃降低到1 050℃,BST晶粒粒徑約為1 μm,燒結過程BZN與BST髮生固溶反應,BST的XRD衍射峰嚮低角度偏移.BST-BZN具有良好的介電常數溫度穩定性,但是由于少量Bi~(3+)對Ba~(2+)/Sr~(2+)的取代、晶粒的細化、晶界相比例增多等原因導緻BST-BZN可調率降低,1 kV/mm的偏場作用下其可調率隻有0.15%.
용초산염공침정공예제비고반응활성Ba_(0.6)Sr_(0.4)TiO_3(BST)분체,첨가10%(질량분수)적Bi_2O_3·ZnNb_2O_6(BZN)위소결조제,채용전통도자제비공예제비BST-BZN복상도자.용소묘전경(SEM)화X사선연사의(XRD)분별연구BST-BZN적미관형모화정상조성,병측시BST-BZN복상도자적개전성능삼수.결과표명,첨가BZN사BST적소결온도유1 350℃강저도1 050℃,BST정립립경약위1 μm,소결과정BZN여BST발생고용반응,BST적XRD연사봉향저각도편이.BST-BZN구유량호적개전상수온도은정성,단시유우소량Bi~(3+)대Ba~(2+)/Sr~(2+)적취대、정립적세화、정계상비례증다등원인도치BST-BZN가조솔강저,1 kV/mm적편장작용하기가조솔지유0.15%.
The barium strontium titanate (Ba_(0.6)Sr_(0.4)TiO_3,BST) powders with high activity were prepared by oxalate co-precipitation method. The barium strontium titanate composites(BST-BZN) doped by 10%(mass fraction) Bi_2O_3·ZnNb_2O_6(BZN) were obtained by traditional solid phase method. Their structures and morphology were characterized by XRD and SEM. Experimental results show that the BST-BZN composites can be sintered at 1 050℃. SEM results showed that the grain size of BST was about 1μm. XRD results showed that the peaks of BST transferred to lower angle since some Nb~(5+) enters BST lattice. BST-BZN composites possess better permittivity-temperature character. However, the tunability of BST-BZN was decreased to 0.15% (measured at 1 kV/mm) due to the substitution of Bi~(3+) to Ba~(2+)/Sr~(2+), the decrease of BST grain size and the increase of grain boundary.