1. 毕业设计（论文）的内容和要求

碳纳米材料包括碳纳米管（cnts）、碳纤维（cnfs）、石墨烯、石墨烯纳米片（gnps）等，因其优异的电学、热学、机械性能备受瞩目，研究遍布生物医药、航空航天等各个领域。

水泥混凝土材料是最大宗的建筑材料，提高其功能性和耐久性，能够有效增加资源利用率、减少能源消耗。

本课题研究石墨烯纳米片（gnp）对水泥基材料水化性能的影响，探讨gnp的掺入对水泥水化性能提高的可行性。

2. 参考文献

1. Lv, S. H.; Deng, L. J.; Yang, W. Q.; Zhou, Q. F.; Cui, Y. Y., Fabrication of polycarboxylate/graphene oxide nanosheet composites by copolymerization for reinforcing and toughening cement composites. Cement and Concrete Composites 2016, 66, 1-9. 2. Alonso, M. C.; Vera-Agullo, J.; Guerreiro, L.; Flor-Laguna, V.; Sanchez, M.; Collares-Pereira, M., Calcium aluminate based cement for concrete to be used as thermal energy storage in solar thermal electricity plants. Cement and Concrete Research 2016, 82, 74-86. 3. Du, H.; Gao, H. J.; Pang, S. D., Improvement in concrete resistance against water and chloride ingress by adding graphene nanoplatelet. Cement and Concrete Research 2016, 83, 114-123. 4. Du, H.; Pang, S. D., Enhancement of barrier properties of cement mortar with graphene nanoplatelet. Cement and Concrete Research 2015, 76, 10-19. 5. Ranjbar, N.; Mehrali, M.; Mehrali, M.; Alengaram, U. J.; Jumaat, M. Z., Graphene nanoplatelet-fly ash based geopolymer composites. Cement and Concrete Research 2015, 76, 222-231. 6. Saafi, M.; Tang, L.; Fung, J.; Rahman, M.; Liggat, J., Enhanced properties of graphene/fly ash geopolymeric composite cement. Cement and Concrete Research 2015, 67, 292-299. 7. Chuah, S.; Pan, Z.; Sanjayan, J. G.; Wang, C. M.; Duan, W. H., Nano reinforced cement and concrete composites and new perspective from graphene oxide. Construction and Building Materials 2014, 73, 113-124. 8. Liu, Q.; Xu, Q.; Yu, Q.; Gao, R.; Tong, T., Experimental investigation on mechanical and piezoresistive properties of cementitious materials containing graphene and graphene oxide nanoplatelets. Construction and Building Materials 2016, 127, 565-576. 9. Tong, T.; Fan, Z.; Liu, Q.; Wang, S.; Tan, S.; Yu, Q., Investigation of the effects of graphene and graphene oxide nanoplatelets on the micro- and macro-properties of cementitious materials. Construction and Building Materials 2016, 106, 102-114. 10. 曹明莉, M. C.; 张会霞, H. Z.; 张聪, C. Z., Effect of graphene on mechanical properties of cement mortars. Journal of Central South University 2016, 23 (4), 919-925. 11. Singh, A. P.; Mishra, M.; Chandra, A.; Dhawan, S. K., Graphene oxide/ferrofluid/cement composites for electromagnetic interference shielding application. Nanotechnology 2011, 22 (46). 12. Babak, F.; Abolfazl, H.; Alimorad, R.; Parviz, G., Preparation and mechanical properties of graphene oxide: cement nanocomposites. TheScientificWorldJournal 2014, 2014, 276323. 13. 韩瑜; 王宝民, 基于石墨烯的水泥基复合材料性能探讨. 低温建筑技术 2015, (02). 14. 吕生华; 孙婷; 刘晶晶; 马宇娟; 邱超超, 氧化石墨烯纳米片层对水泥基复合材料的增韧效果及作用机制. 复合材料学报 2014, (03). 15. 张亚娟, 氧化石墨烯分散液对路用水泥砂浆性能的影响. 公路交通科技(应用技术版) 2016, (08). 16. 吕生华; 马宇娟; 邱超超; 巨浩波, 氧化石墨烯增强增韧水泥基复合材料的研究. 功能材料 2013, (15). 17. 曹明莉; 张会霞; 张聪, 石墨烯对水泥净浆力学性能及微观结构的影响. 哈尔滨工业大学学报. 18. 吕生华; 马宇娟; 邱超超; 巨浩波, 氧化石墨烯对水泥石微观结构及性能的影响. 混凝土 2013, (08). 19. 刘琼; 许清风; 李向民, 石墨烯和碳纳米管水泥基复合材料研究进展. Hntw 2016, (03). 20. 王辉; 刘爱红; 李航, 石墨烯纳米片对水泥基复合材料力学性能的影响. Hntw 2015, (12).

3. 毕业设计（论文）进程安排

起讫日期 设计（论文）各阶段工作内容 备 注 2016.12.12~ 2016.12.18 了解的一些理论基础 2016.12.19~ 2016.12.25 确定课题，查阅相关文献 2016.12.26~ 2017.1.1 了解实验方案及方法 2017.1.2~ 2017.4.30 进行实验 2017.5.1~ 2017.5.30 数据处理及论文撰写