流延铁氧体浆料配制与致密化研究任务书
2020-06-03 21:56:38
1. 毕业设计(论文)的内容和要求
本论文的主要内容是对大面积超厚铁氧体材料流延成型工艺的探究。
本科题涉及的主要学科和知识领域为高分子化学、物理化学、材料科学基础、材料测试方法、材料科研导论、材料物理性能、陶瓷材料工艺学等。
首先要求通过网络、书刊对石榴石型微波铁氧体基片材料及其流延成型工艺有大致的了解,然后针对论文题目自行选取关键词,利用学校图书馆ca、ei和sci等索引手段以及各类中文数据库(维普、中国期刊网等)查阅与课题有关的中外文献资料,至少查阅1-2篇外文文献,并做好读书笔记。
2. 参考文献
[1]韩志全. 微波铁氧体材料的发展概况[J]. 磁性材料及器件, 2000, 31(5):32-35. [2]洪向东, 许启明, 陈明. YIG多晶微波铁氧体材料的开发与性能[J]. 磁性材料及器件, 2008, 39(1):63-65. [3]蒋微波, 蒋仁培. 微波铁氧体器件在雷达和电子系统中的应用、研究与发展(下)[J]. 现代雷达, 2009, 31(10):1-9 [4]曲茉莉, 郭凤英. 铁氧体复合材料研究进展[J]. 中国新技术新产品, 2015(8):74-75. [5]Wang K, Yang J, Qiu T, et al. Preparation of Y_3Fe_(4.85)O_(12) Ferrite Substrates by Non Aqueous Tape Casting[J]. Journal of Synthetic Crystals, 2012, 41(3):753-758. [6]Wu X, Yan S, Liu W, et al. Influence of particle size on dynamic magnetic properties of tape-casting NiCuZn ferrite sheets[C]// Magnetics Conference (INTERMAG), 2015 IEEE. IEEE, 2015. [7]Miao C, Zhou J, Cui X, et al. Interfacial investigation of the Co-fired NiCuZn Ferrite/PMN composite prepared by tape casting[J]. Journal of Electroceramics, 2008, 21(1-4):536-540. [8]Yang Z H, Li Z W, Kong L B. Structural and magnetic properties of free-standing Ni 0.23Cu 0.11Zn 0.66Fe 2O 4 thick films prepared using a modified tape-casting method[J]. Journal of Magnetism amp; Magnetic Materials, 2010, 322(5):557-561. [9]Jie Y U, Zhou H, Zhao J, et al. Preparation of NiCuZn Green Tape by Low Temperature and co-Sintering and Study on Its Properties[J]. Materials Review, 2013. [10]Myung J H, Ko H J, Chang H I, et al. Development of solid oxide fuel cells (SOFCs) by tape-casting and single-step co-firing of monolithic laminates[J]. International Journal of Hydrogen Energy, 2014, 39(5):2313-2319. [11]Mei S, Yang J, Xu X, et al. Aqueous tape casting processing of low dielectric constant cordierite-based glass-ceramics#8212;selection of binder[J]. Journal of the European Ceramic Society, 2006, 26(s 1#8211;2):67#8211;71. [12]Bai D, Li W, Yang X, et al. Continuous-wave laser performance of non-aqueous tape casting fabricated Yb:YAG Ceramics[J]. Optical Materials Express, 2015, 5(2):330-339. [13]Durif C, Frouml;mder C, Affolter C, et al. Aquacasting#8212;A new shaping concept for water based reactive tape casting[J]. Journal of the European Ceramic Society, 2015, 35(13):3633-3640. [14]王科, 丘泰. 铁氧体基片流延成型工艺的研究进展[J]. 电子元件与材料, 2011, 30(1):79-82. [15]王科, 杨建, 丘泰,等. 非水基流延法制备Y_3Fe_(4.85)O_(12)铁氧体基片[J]. 人工晶体学报, 2012, 41(3):753-758. [16]Yu M, Zhang J, Li X, et al. Optimization of the tape casting process for development of High performance alumina ceramics[J]. Ceramics International, 2015, 41(10):14845-14853. [17]Ma C, Tang F, Lin H, et al. Fabrication and planar waveguide laser behavior of YAG/Nd:YAG/YAG composite ceramics by tape casting[J]. Journal of Alloys amp; Compounds, 2015, 640:317-320. [18]Ranieri M G A, Aguiar E C, Cilense M, et al. Influence of processing route on electrical properties of Bi4Ti3O12 ceramics obtained by tape-casting technology[J]. Materials Research Bulletin, 2015, 70:20-25.
3. 毕业设计(论文)进程安排
2016.12.16-2017.1.13 查阅文献资料及进行文献综述 2017.2.17-2017.2.28 撰写开题报告、开题 2017.2.28-2017.3.5 确定方案、准备器材和原料 2017.3.5-2017.4.25 配方计算及配料、混合、预烧、烧成2017.4.25-2017.4.30 阶段小结和期中交流 2017.5.4-2017.5.15 烧结性能和介电性能测试 2017.5.15-2017.5.24 实验数据整理和总结 2017.5.25-2017.6.6 撰写和修改论文 2017.6.7-2017.6.14 答辩准备和答辩