1. 毕业设计(论文)的内容和要求
(1)在第1章引言部分,通过文献阅读和总结分析,给出如下内容:低温共烧陶瓷的研究现状,现有研究存在的问题或不足,本课题拟开展的研究内容和预期目标。
相关内容要求能够支撑毕业要求指标点3.1和10.3。
(2)在第2章总体方案设计部分,针对文献研究中发现的问题,结合高分子化学、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、陶瓷材料工艺学等课程所学知识,分析CABS体系生料带致密度、烧成性能、介电性能的影响因素,并提出至少两种实现方案。
2. 参考文献
[1] 张兆生,卢振亚,陈志武. 电子封装用陶瓷基片材料的研究进展[J]. 材料导报, 2008, 22(11): 16-20. [2] 李泊,潘凤娥. 低温共烧陶瓷种理想的微波材料[J]. 半导体技术, 2003, 28(11): 71-75. [3] 李冬云, 乔冠军, 金志浩. 流延法制备陶瓷薄片的研究进展. 硅酸盐通报, 2004(2): p. 44-47. [4] Andreas Heunisch, et al. Effect of powder, binder and process parameters on anisotropic shrinkage in tape cast ceramic products[J]. Journal of the European Ceramic Society, 2010, 30 :33973406. [5] Muralidhar S K, Robert G J, Shalk A, et a1. Low Dielectric Low Temperature Fired Glass Ceramics[P]. USA 5258335, 1993. [6] ZHU H K, ZHOU H Q, LIU M, et al. Low temperature sintering and properties of CaO-SiO2-B2O3 system glass ceramics for LTCC applications [J]. J Alloy Compd, 2009, 482(1/2): 272-275.] [7] 许贵军,周洪庆,朱海奎,刘敏,韦鹏飞,. 氧化铝对钙硼硅基板材料的改性[J]. 电子元件与材料,2009,28(11): 56-59. [8] 来俊华, 流延法制备95Al2O3瓷基板的研究[硕士学位论文]. 南京: 南京工业大学, 2003. [9] 吴 黎,朱丽慧,黄清伟等,有机添加剂对氧化铝流延浆料流变性能的影响[J]. 电子元件与材料,2012,31(3):45-48 [10 ]Zhifu Liu, Yiling Wang, and Yongxiang Li, Combinatorial Study of Ceramic Tape-Casting Slurries[J]. ACS Comb Sci, 2012, 14:205210 [11] 贺连星, 温廷琏等, 流延法制备陶瓷资料电池电解质膜的研究进展. 材料科学与工程, 1997. 15(3). [12] 陈兴宇,张为军,堵永国等. 硼硅酸盐玻璃/氧化铝低温共烧陶瓷材料的烧结[J]. 电子元件与材料, 2009,28(1): 8-10 [13] M T SEBASTIAN, H WANG, H JANTUNEN. Low temperature co-fired ceramics with ultra-low sintering temperature: A review[J]. Curr Opin in Solid St M, 2016, 20(3): 151-170. [14] M T SEBASTIAN, R UBIC, H JANTUNEN. Microwave materials and applications[M]. Wiley, 2017. [15] 杨应慧,李田叶,于鑫等. LTCC材料技术运用与发展前景[J]. 山东陶瓷, 2015, 38(4): 15-18. [16] 杨邦朝,胡永达. LTCC技术的现状和发展[J]. 电子元件与材料, 2014, 33(11): 5-13. [17] 胡君遂,杨光,堵永国等. MAS系陶瓷生带的烧结特性研究[J]. 电子元件与材料, 2007, 26(9): 14-17. [18] W H ZHENG, H CAO, J B ZHONG, et al. CaOMgOAl2O3SiO2 glass-ceramics from lithium porcelain clay tailings for new building materials[J]. J Non-Cryst Solids, 2015, 409:27-33. [19] 陈国华,徐华蕊,江民红等. CaO和SiO2含量比值对钙长石基微晶玻璃性能的影响[J]. 材料热处理学报, 2010, 31(5): 30-35. [20] S AHMAD, T LUDWIG, M HERRMANN, et al. Crystallisation studies of Si3N4Al2O3SiO2Y2O3 glassceramics under different heat-treatment conditions[J]. J Eur Ceram Soc, 2015, 35(8): 2261-2268. [21] X Z GUO, X B CAI, J SONG, et al. Crystallization and microstructure of CaOMgOAl2O3SiO2 glassceramics containing complex nucleation agents[J]. J Non-Cryst Solids, 2014, 405:63-67. [22] L SONG, J F WU, Z LI, et al. Crystallization mechanisms and properties of α-cordierite glassceramics from K2OMgOAl2O3SiO2 glasses[J]. J Non-Cryst Solids, 2015, 419:16-26. [23] C C CHIANG, S F WANG, Y R WANG, et al. Densification and microwave dielectric properties of CaOB2O3SiO2 system glassceramics[J]. Ceram Int, 2008, 34(3): 599-604. [24] H R FERNANDES, D U TULYAGANOV, A GOEL, et al. Effect of Al2O3 and K2O content on structure, properties and devitrification of glasses in the Li2OSiO2 system[J]. J Eur Cera Soc, 2010, 30(10): 2017-2030. [25] S GHOSH, A D SHARMA, A K MUKHOPADHYAY, et al. Effect of BaO addition on magnesium lanthanum alumino borosilicate-based glass-ceramic sealant for anode-supported solid oxide fuel cell[J]. Int J Hydrogen Energ, 2010, 35(1): 272-283. [26] Y KIM, Y YANABA, K MORITA. The effect of borate and silicate structure on thermal conductivity in the molten Na2OB2O3SiO2 system[J]. J Non-Cryst Solids, 2015, 415:1-8. [27] P ALIZADEH, V K Marghussian. The effect of compositional changes on the crystallization behaviour and mechanical properties of diopside-wollastonite glass-ceramics in the SiO2-CaO-MgO (Na2O) system[J]. J Eur Ceram Soc, 2000, 20:765-773.
以上是毕业论文任务书,课题毕业论文、开题报告、外文翻译、程序设计、图纸设计等资料可联系客服协助查找。
