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毕业论文网 > 任务书 > 材料类 > 复合材料与工程 > 正文

CBS系微晶陶瓷材料烧成特性与性能研究任务书

 2020-04-18 19:58:50  

1. 毕业设计(论文)的内容和要求

本论文的主要内容是研究有机添加剂(分散剂、粘结剂等)对CBS流延体系及其生料带性能的影响。本科题涉及的主要学科和知识领域为无机化学、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、功能陶瓷、陶瓷材料工艺学等。首先要求在本论文中自行选取关键词,利用CA、EI和SCI等索引手段以及各类网上数据库(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。在整个论文过程中,要发挥自己的主观能动性,将四年中学到的知识融会贯通地运用到论文过程中;要认真领会老师的意图,妥善安排自己的实验,做到有条不紊。实验过程中要认真负责,做好实验记录,及时整理实验数据。要遵守实验室的规章制度,实验过程中要注意安全,不得进行违反安全的操作。有事要预先请假,不得擅自离开工作岗位。本论文要求完成的工作:(1) 查阅与本课题相关的最新的研究内容;(2) 研究分散剂、粘结剂等对CBS体系生料带致密度、烧成性能、介电性能的影响;

2. 参考文献

[1] Z. Ding, H. Su, X. Tang, H. Zhang, Yulanjing, B. Liu. Low-temperature-sintering characteristic and microwave dielectric properties of(Zn0.7Mg0.3)TiO3 ceramics with LBSCA glass. Ceram. Int.41(8) (2015):10133-10136. [2] L. Song, J. Wu, Z. li, X. Hao, Y. Yu. Crystallization mechanisms and properties of α-cordierite glass#8211;ceramics from K2O#8211;MgO#8211;Al2O3#8211;SiO2 glasses. J. Non-Cryst. Solids.419 (2015):16-26. [3] M. T. Sebastian, H. Jantunen. Low loss dielectric materials for LTCC applications: a review. Int. Mater. Rev.53(2) (2008):57-90. [4] B. E. Glad, C. Han, W. M. Kriven, P. Colombo. Polymer Adhesion to Geopolymer via Silane Coupling Agent Additives. J. Am. Ceram. Soc.95(12) (2012):3758-3762. [5] E. P. Plueddemann, Silane Coupling Agents. Plenum Press, New York, 1991. [6] C. H. Campos, C. C. Torres, B. F. Urbano, B. L. Rivas. Effect of the coupling agent on the properties of poly(acrylic acid)#8722;Al2O3 interpenetrating hybrids and sorption of metal ions. Polym. Int.64(5) (2015):595-604. [7] P. Haque, A. J. Parsons, I. A. Barker, I. Ahmed, D. J. Irvine, G. S. Walker, et al. Interfacial properties of phosphate glass fibres/PLA composites: Effect of the end functionalities of oligomericPLA coupling agents. Compos. Sci. Technol.70(13) (2010):1854-1860. [8] Y. Li, B. Han, L. Liu, F. Zhang, L. Zhang, S. Wen, et al. Surface modification of silica by two-step method and properties of solution styrene butadiene rubber (SSBR) nanocomposites filled with modified silica. Compos. Sci. Technol.88 (2013):69-75. [9] M. R. Tchoquessi Diodjo, L. Belec, E. Aragon, Y. Joliff, L. Lanarde, F. X. Perrin. Silane coupling agent for attaching fusion-bonded epoxy to steel. Acs. Appl. Mater. Inter.5(14) (2013):6751-6761. [10] M. J. Edirisinghe. The use of silane coupling agents in ceramic injection moulding:effect on polymer removal. J. Mater. Sci. Lett.9 (1990):1039-1041. [11] D. Pedrazzoli, A. Pegoretti. Silica nanoparticles as coupling agents for polypropylene/glass composites. Compos. Sci. Technol.76 (2013):77-83. [12] W. Liu, Z. Xie, C. Jia. Surface modification of ceramic powders by titanate coupling agent for injection molding using partially water soluble binder system. J. Eur. Ceram. Soc.32(5) (2012):1001-1006. [13] H. Chen, J. Zheng, L. Qiao, Y. Ying, L. Jiang, S. Che. Surface modification of NdFe12Nx magnetic powder using silane coupling agent KH550. Adv. Powder. Technol.26(2) (2015):618-621. [14] J.-G. D. Chung-Lun Lo, Bi-Shiou Chiou, Wen-Hsi Lee. Low-Temperature Sintering and Microwave Dielectric Properties of Anorthite-Based Glass-Ceramics. J. Am. Ceram. Soc.85(9) (2002):2230-2235. [15] Y. Chen, W. Yue, Z. Bian, Y. Fan, Q. Lei. Preparation and properties of KH550-Al2O3/PI#8211;EP nanocomposite material. Iran. Polym. J.22(5) (2013):377-383. [16] M. Yu, J. Zhang, X. Li, H. Liang, H. Zhong, Y. Li, et al. Optimization of the tape casting process for development of high performance alumina ceramics. Ceram. Int.41(10)(2015):14845-14853. [17] R. M. S. Kim Blackman, Jennifer A. Lewis. Competitive Adsorption Phenomena in Nonaqueous Tape Casting Suspensions. J. Am. Ceram. Soc.84(11) (2001):2501-2506. [18] A. Heunisch, A. Dellert, A. Roosen. Effect of powder, binder and process parameters on anisotropic shrinkage in tape cast ceramic products. J. Eur. Ceram. Soc.30(16) (2010):3397-3406. [19] T. W. C. Hongmei Liao. Effects of organotitanate additions on the dispersion of aluminum nitride in nonpolar solvents. J. Am. Ceram. Soc.78(5) (1995):1291-1296. [20] L. Ren, H. Zhou, X. Li, W. Xie, X. Luo. Synthesis and characteristics of borosilicate-based glass#8211;ceramics with different SiO2 and Na2O contents. J. Alloy. Compd.646 (2015):780-786. [21] Chuang-Chung Chiang, Sea-Fue Wang, Yuh-Ruey Wang, Wen-Cheng Wei. Densification and microwave dielectric properties of CaO-B2O3-SiO2 system glasseceramics, Ceram. Int.34 (2008):599-604. [22] X. Guo, X. Cai, J. Song, G. Yang, H. Yang. Crystallization and microstructure of CaO#8211;MgO#8211;Al2O3#8211;SiO2 glass#8211;ceramics containing complex nucleation agents. J. Non-Cryst.Solids.405 (2014): 63#8211;67

3. 毕业设计(论文)进程安排

2018.12.16-2019.1.13 查阅文献资料及进行文献综述 2019.2.17-2019.2.28 撰写开题报告、开题 2019.2.28-2019.3.5 确定方案、准备器材和原料 2019.3.5-2019.4.25 配方计算及配料、混合、预烧、烧成2019.4.25-2019.4.30 阶段小结和期中交流 2019.5.4-2019.5.15 浆料固含量,生料带密度,烧结性能和介电性能测试 2019.5.15-2019.5.24 实验数据整理和总结 2019.5.25-2019.6.6 撰写和修改论文 2019.6.7-2019.6.14 答辩准备和答辩

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