有机微波固化填缝剂的制备与表征任务书
2020-06-26 20:09:35
1. 毕业设计(论文)的内容和要求
瓷砖因其具有美观大方、坚硬结实等优点,广泛应用于建筑领域。
瓷砖填缝剂作为瓷砖粘贴配套填缝材料,伴随着瓷砖使用面积增长而增加。
随着人们生活水平及认识提高,瓷砖填缝剂也从最初的白水泥发展到目前主流聚合物改性水泥基填缝剂。
2. 参考文献
1. [1]韩朝辉,宋明宇,薛光辉.环氧瓷砖填缝剂的研究[J].新型建筑材料,2015,42(04):84-86. 2. Braun U, Balabanovich A I, Schartel B, et al. Influence of the oxidation state of phosphorus on the decomposition and fire behaviour of flame-retarded epoxy resin composites[J]. Polymer, 2006, 47(26): 8495-8508. 3. Wang X, Hu Y, Song L, et al. Flame retardancy and thermal degradation mechanism of epoxy resin composites based on a DOPO substituted organophosphorus oligomer[J]. Polymer, 2010, 51(11): 2435-2445. 4. Prasse T, Cavaille J Y, Bauhofer W. Electric anisotropy of carbon nanofibre/epoxy resin composites due to electric field induced alignment[J]. Composites Science and Technology, 2003, 63(13): 1835-1841. 5. Chen H, Jacobs O, Wu W, et al. Effect of dispersion method on tribological properties of carbon nanotube reinforced epoxy resin composites[J]. Polymer Testing, 2007, 26(3): 351-360. 6. Gao S L, M#228;der E. Characterisation of interphase nanoscale property variations in glass fibre reinforced polypropylene and epoxy resin composites[J]. Composites Part A: applied science and manufacturing, 2002, 33(4): 559-576. 7. Kim H S, Khamis M A. Fracture and impact behaviours of hollow micro-sphere/epoxy resin composites[J]. Composites Part A: Applied Science and Manufacturing, 2001, 32(9): 1311-1317. 8. Toldy A, Szolnoki B, Marosi G. Flame retardancy of fibre-reinforced epoxy resin composites for aerospace applications[J]. Polymer Degradation and Stability, 2011, 96(3): 371-376. 9. Puglia D, Valentini L, Kenny J M. Analysis of the cure reaction of carbon nanotubes/epoxy resin composites through thermal analysis and Raman spectroscopy[J]. Journal of applied polymer science, 2003, 88(2): 452-458. 10. Dang Z M, Yu Y F, Xu H P, et al. Study on microstructure and dielectric property of the BaTiO3/epoxy resin composites[J]. Composites Science and Technology, 2008, 68(1): 171-177. 11. Jiang G, Pickering S J, Lester E H, et al. Characterisation of carbon fibres recycled from carbon fibre/epoxy resin composites using supercritical n-propanol[J]. Composites Science and Technology, 2009, 69(2): 192-198. 12. Thomason J L. The interface region in glass fibre-reinforced epoxy resin composites: 2. Water absorption, voids and the interface[J]. Composites, 1995, 7(26): 477-485. 13. Nikkeshi S, Kudo M, Masuko T. Dynamic viscoelastic properties and thermal properties of Ni powder#8211;epoxy resin composites[J]. Journal of Applied Polymer Science, 1998, 69(13): 2593-2598. 14. Srivastava V K, Pawar A G. Solid particle erosion of glass fibre reinforced flyash filled epoxy resin composites[J]. Composites Science and Technology, 2006, 66(15): 3021-3028. 15. Zhang Z, Liu Y, Huang Y, et al. The effect of carbon-fiber surface properties on the electron-beam curing of epoxy-resin composites[J]. Composites science and technology, 2002, 62(3): 331-337. 16. Li Q, Zaiser M, Koutsos V. Carbon nanotube/epoxy resin composites using a block copolymer as a dispersing agent[J]. Physica status solidi (a), 2004, 201(13). 17. Thomason J L. The interface region in glass fibre-reinforced epoxy resin composites: 3. Characterization of fibre surface coatings and the interphase[J]. Composites, 1995, 26(7): 487-498. 18. 王升,岳皎洁,张东伟,胡庭荣,颜海燕.高导热定向石墨烯/环氧树脂复合材料的研究[J].化工管理,2017(17):69-70. 19. [1]Syed Asif Ali Shah. Fe纳米粒子/碳纤维/环氧树脂基复合材料平板制备与电磁性能[D].大连理工大学,2016. 20. 徐学宏,王小群,闫超,王旭.环氧树脂及其复合材料微波固化研究进展[J].材料工程,2016,44(08):111-120. 21. 常新龙,孙涛,赖建伟,方鹏亚.环氧树脂基复合材料的微波固化研究[J].玻璃钢/复合材料,2012(02):36-39.
3. 毕业设计(论文)进程安排
1.4-1.23 文献查阅,文献翻译,开题报告 3.2-3.27 样品制备 3.30-4.24 产物表征与测试 4.27-5.1 中期总结,论文初稿 5.4-6.5 补充数据,完善论文 6.8-6.12 PPT制作,答辩
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