以抹灰石膏作为基体材料,将癸酸-棕榈酸-SiO2相变储湿材料掺入抹灰石膏中,制备癸酸-棕榈酸-SiO2/石膏相变储湿复合材料,对其基本性能、储湿调湿性能、相变调温性能和耐久性能进行测试与分析。利用FTIR和 SEM研究癸酸-棕榈酸-SiO2/石膏相变储湿复合材料的结构组成和微观形貌。结果表明:当癸酸-棕榈酸-SiO2相变储湿复合材料掺量为40wt%的癸酸-棕榈酸-SiO2/石膏相变储湿复合材料具有最佳性能和良好耐久性能。其标准扩散度用水量为0.69、初凝时间为37 min、终凝时间为51 min、体积密度为916.67 kg·m-3、拉伸连接强度为0.08 MPa、抗压强度为1.76 MPa;在相对湿度40%~65%的平衡含湿量为0.0620~0.0849 g·g-1;从30℃至15℃的降温时间为610 s,相变平台明显;经过循环试验,吸放湿性能下降了6.44%~9.45%,相变调温性能仅下降了7.2%。
With plastering gypsum as basis material,decanoic acid-palmitic acid-SiO2 phase change and humidity storage composites were mixed with plastering gypsum to prepare decanoic acid-palmitic acid-SiO2/gypsum phase change and humidity storage composites.Basic performance,humidity storage humidity controlling performance, phase change temperature controlling performance and durability performance of decanoic acid-palmitic acid-SiO2/gypsum phase change and humidity storage composites were tested and analyzed.Structural composition and micro-structure of gypsum phase change and humidity storage composites were analyzed by FTIR and SEM.The results show that decanoic acid-palmitic acid-SiO2 phase change and humidity storage composites with mass content of 40wt% can provide the best performance and good durability performance of decanoic acid-palmitic acid-SiO2/gyp-sum phase change and humidity storage composites.The standard diffusion degree of water consumption is 0.69, initial setting time is 37 min,final setting time is 51 min,bulk density is 916.67 kg·m-3,tensile connection strength is 0.08 MPa and compressive strength is 1.76 MPa. Equilibrium moisture content is 0.0620 0.0849 g·g-1 in relative humidity 40% 65%.Cooling time from 30 ℃ to 15 ℃ is 610 s with clear phase change platform.After the cycling test,the moisture absorption performance decline is 6.44% 9.45%,phase change and temperature controlling performance decline is 7.2%.
参考文献
| [1] | CK Huynh.Building Energy Saving Techniques and Indoor Air Quality - A Dilemma[J].International Journal of Ventilation,20101(1):93-98. |
| [2] | Min Li;Hongtao Kao;Zhishen Wu;Jinmiao Tan.Study on preparation and thermal property of binary fatty acid and the binaryfatty acids/diatomite composite phase change materials[J].Applied energy,20115(5):1606-1612. |
| [3] | Li, M.;Wu, Z.;Kao, H..Study on preparation and thermal properties of binary fatty acid/diatomite shape-stabilized phase change materials[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,20118(8):2412-2416. |
| [4] | Dynamic characteristics and energy performance of buildings using phase change materials: A review[J].Energy conversion & management,200912(12):3169. |
| [5] | Edward D. Weil;Sergei V. Levchik.Flame Retardants in Commercial Use or Development for Textiles[J].Journal of fire sciences,20083(3):243-281. |
| [6] | 邓安仲;李胜波;庄春龙;沈小东;张雄.轻质相变储热墙体材料研究[J].建筑材料学报,2008(5):541-544. |
| [7] | M. Hunger;A.G. Entrop;I. Mandilaras.The behavior of self-compacting concrete containing micro-encapsulated Phase Change Materials[J].Cement & concrete composites,200910(10):731-743. |
| [8] | 马晓光;张晓林;李俊升;夏少白;汤铸先.相变材料的复合及其热性能研究[J].材料科学与工艺,2008(5):720-723. |
| [9] | 冉茂宇.日本对调湿材料的研究及应用[J].材料导报,2002(11):42-44. |
| [10] | 李国胜;梁金生;丁燕;梁广川;汤庆国.海泡石矿物材料的显微结构对其吸湿性能的影响[J].硅酸盐学报,2005(5):604-608. |
| [11] | 张泽平;李珠;董彦莉.建筑保温节能墙体的发展现状与展望[J].工程力学,2007(z2):121-128. |
| [12] | 尚建丽;张浩.癸酸-棕榈酸/SiO2相变储湿复合材料的制备与表征[J].复合材料学报,2016(2):341-349. |
| [13] | 尚建丽;张浩;熊磊;麻向龙.脂肪酸/SiO2复合相变材料的制备及其对织构的影响因素[J].材料研究学报,2015(10):757-766. |
| [14] | 尚建丽;张浩;熊磊;麻向龙.基于均匀设计优化制备癸酸-棕榈酸/SiO2复合相变材料[J].材料工程,2015(9):94-102. |
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