开放获取
j . Hagberg, "分解草酸盐粉末丝网印刷(Bi,Pb)-Sr-Ca-Cu-O厚膜的性能",有源和无源电子元件, 卷。15, 文章的ID080269, 9 页面, 1993。 https://doi.org/10.1155/1993/80269
分解草酸盐粉末丝网印刷(Bi,Pb)-Sr-Ca-Cu-O厚膜的性能
摘要
为了改善超导(Bi,Pb)-Sr-Ca-Cu-O丝网印刷厚膜的形貌和结构,研究了粉糊特性的意义。具有Bi名义成分的粉末1.75Pb0.4老1.9Ca2.1铜3.2Oy经草酸盐合成,在430 ~ 795℃下分解。用x射线衍射、透射电子显微镜和比表面积测定对分解后的粉末进行了表征。这些研究表明,比表面积的变化范围为16.5 ~ 0.9 m2/g以及在研究温度区间内平均粒径从100 nm到800 nm的变化。相结构表现为三个不同的温度区;430 - 620, 620 - 715, 795℃。Thick-film pastes were made by the addition of an organic vehicle at 500, 620, 650 and 795℃ to decompose annealed oxalate synthesized powders and, for comparison, the vehicle was also added to sintered mixed-oxide/carbonate-based powder in weight ratios from 0.42 to 0.54:1. Films were screen printed on single crystal MgO (100) substrates and melt annealed at 890 to 895℃ for 3 min and subsequently, for prolonged diffusion, annealed at 852℃. After firing, the films were mainly composed of the (001) textured (Bi,Pb)2老2Ca2铜3.Oy阶段。参考膜由氧化物/碳酸盐混合粉末制成,与草酸盐粉末在795℃下分解形成的膜相似。在较低温度下分解的草酸盐粉末制成的薄膜比在较高温度下分解的粉末制成的薄膜更平滑,能携带更高的电流。
版权
版权所有©1993 Hindawi出版公司。这是一篇开放获取的文章知识共享署名许可,允许在任何媒体上不受限制地使用、分发和复制,只要原文被适当地引用。