铌酸钾和铌酸钡镍复合氧化物材料的制备研究
陶瓷样品经XDR、SEM等分析手段,XRD结构分析发现Ni2+掺杂会改变其结构,从四方相变为立方相结构。从SEM照片上看烧结温度为1070℃时,样品的晶粒尺寸较大,致密度较好。介电性能分析表明介电常数会随着Ni掺杂浓度而降低。通过铁电性能分析可以发现,Ni的掺杂浓度从0.1增加到0.3时,陶瓷剩余极化率和矫顽电场分别从4.002μC/cm2减小到0.845μC/cm2,从0.172Kv/cm增加到56.97Kv/cm,BaNb1/2Ni1/2O3-x陶瓷的铁电性能得到提升。28241
关键词 铁电材料 光伏发电材料 介电性能 电滞回线
毕业设计说明书(毕业论文)外文摘要
Title the synthesis of the Composite oxide with Potassium niobate and Barium niobate nickel and its properties research
Abstract
This paper with the improved ceramic fabrication processes [KNbO3] 1 - x [BaNi1/2 nb1/2 o3 - delta] x (KBNNO) oxide materials.By K2CO3, BaCO3, NiO and Nb2O5 as main raw materials, the raw material by the ball mill, drying, presintering, grinding, molding, plastic, sintering and annealing process for ceramic samples.
Ceramic samples by the XDR, analytical means such as SEM, XRD analysis found that Ni2 + doped to its structure might alter its structure, from the four winds phase transition for cubic phase structure.Seen from the SEM sintering temperature is 1070 ℃, the grain size of the sample size is larger, density is better.Dielectric performance analysis shows that the dielectric constant will reduce with the Ni doping concentration.By iron performance analysis can be found that the doping concentration of the Ni increased from 0.1 to 0.3, ceramic remaining polarizability and coercive electric field respectively mu mu C/cm2 decreased from 4.002 to 4.002 C/cm2, increased from 0.172 Kv/cm to 56.97 Kv/cm, BaNb1/2 ni1 / o3-2 x ceramic iron electric performance improved.
Keywords Ferroelectric materials photovoltaic materials dielectric properties ferroelectric hysteresis loop
目 录
1 引言 . 1
1.1 铁电材料的介绍. .1
1.2 铁电材料的原理 . 1
1.3 铁电材料在光伏材料中的应用 . 2
1.4 压电陶瓷的研究进展 . .2
1.5 太阳能电池的应用 .. 4
1.6 铁电材料的基本工艺方法..6
1.7 铁电材料的应用 .7
1.8 本文的研究内容和意义 7
2 实验 .. 8
2.1 实验材料 8
2.2 实验仪器 .. .8
2.3 实验过程 8
3 实验数据分析. 11
3.1 DSC分析 11
3.2 XRD分析 11
3.3 介电分析 15
3.4 SEM分析 17
3.5 铁电分析.19
结 论 .21
致 谢 .22
参考文献 ..23
1 引言
近年来全球经济的迅速发展以及人口的不断增加使得以石油、天然气和煤炭等为主的化石能源消耗殆尽,如何度过能源危机成为世界各国共同面临的话题。与此同时,使用化石能源所造成的污染以及所引发生态失衡等问题也逐步制约人类社会经济的发展甚至危害人类的生存。大力开发和使用新能源迫在眉睫。太阳能具有分布广泛,可再生以及无害的优点,且是最丰富的能源之一,是国际上一致公认的理想能源。作为一种无害化并使用高效的新型发电方式,光伏发电技术正在全球范围内逐步得到应用,其中铁电材料也得到了迅猛发展。