1. 毕业设计（论文）的内容和要求

本课题的研究目的是依靠介电材料钛酸镁和传统阻燃材料氢氧化镁制备具有优异降温性能兼具有良好阻燃的复合材料。

本课题的设计主要考虑到钛酸镁作为一种常用的介电材料，具有较高的介电常数。

根据麦克斯韦电磁理论可知，无机粉体材料的折光指数和材料介电常数的开方呈正比。

2. 参考文献

[1]. Jim, C.Y., Air-conditioning energy consumption due to green roofs with different building thermal insulation [J]. Applied Energy. 2014, 128(3), 49-59. [2]. Wei, Y.X., et al., A review of data-driven approaches for prediction and classification of building energy consumption [J]. Renewable Sustainable Energy Reviews. 2018, 82(1), 1027-1047. [3]. Levinson, R., H. Akbari and P. Berdahl, Measuring solar reflectance-Part I: Defining a metric that accurately predicts solar heat gain [J]. Solar Energy. 2010. 84(9), 1717-1744. [4]. Chow, T.T., C. Li and Z. Lin, Innovative solar windows for cooling-demand climate [J]. Solar Energy Materials Solar Cells. 2010. 94(2), 212-220. [5]. Cooling your home naturally [J]. Office of Scientific Technical Information Technical Reports, 1994, DOE/CH10093-221. [6]. 张世超. 低导热纳米氧化硅隔热材料的制备及性能研究 [D], 2015, 中国建筑材料科学研究总院. [7]. 郑立辉等. 粒状复合相变材料隔热性能实验研究 [J]. 上海建材. 2009, (4), 第19-20页. [8]. Hossain, M.M. M. Gu, Radiative Cooling: Principles, Progress, and Potentials [J]. Advanced Science. 2016, 3(7), 1-10. [9]. 王科林,徐娜. 太阳热反射隔热涂层及其发展趋势 [J]. 现代涂料与涂装. 2009. 12(2), 第18-22页. [10]. Jeevanandam P. Near Infrared Reflectance Properties of Metal Oxide Nanoparticles [J]. Journal of Physical Chemistry C. 2007. 111(5), 1912-1918. [11]. Song, J. The effects of particle size distribution on the optical properties of titanium dioxide rutile pigments and their applications in cool non-white coatings [J]. Solar Energy Materials Solar Cells. 2014. 130, 42-50. [12]. Qi, Y., X. Yin and J. Zhang. Transparent and heat-insulation plasticized polyvinyl chloride (PVC) thin film with solar spectrally selective property [J]. Solar Energy Materials Solar Cells. 2016. 151, 30-35. [13]. Xiang, B. Zhang J, A new member of solar heat-reflective pigments: BaTiO 3 and its effect on the cooling properties of ASA (acrylonitrile-styrene-acrylate copolymer) [J]. Solar Energy Materials Solar Cells. 2018. 180, 67-75. [14]. 杜磊, TiO2太阳能反射涂料的制备研究 [D]. 2012, 广东工业大学. [15]. 杨震,卿宁. 隔热材料的研究现状及发展 [J]. 化工新型材料. 2011. 39(5), 第21-24页. [16]. 王慧利, 邓建国,舒远杰. 多孔隔热材料的研究现状与进展 [J]. 化工新型材料. 2011. 39(12), 第24-27页. [17]. Sari, A. and K. Kaygusuz, Thermal energy storage system using stearic acid as a phase change material [J]. Solar Energy. 2001. 71(6), 365-376. [18]. Reddy, M.R., et al., Thermal energy storage system using phase change materials: Constant heat source [J]. Thermal Science. 2012. 16(4), 1097-1104. [19]. Biswas, K., et al., Combined experimental and numerical evaluation of a prototype nano-PCM enhanced wallboard [J]. Applied Energy. 2014. 131(9), 517-529. [20].相波，ASA基降温复合材料的合成、制备与性能研究 [D]. 2018, 南京工业大学.

3. 毕业设计（论文）进程安排

12.21-1.18 文献查询及文献翻译，完成开题报告并开题 1.19-2.24 查阅文献，思考课题 2.25-4.22 进行实验工作 4.23-4.29 毕业设计中期检查 4.30－6.10 继续实施实验并撰写论文 6.11-6.14 论文答辩