采用熔融复合的方法制备了纳米TiO2/聚碳酸酯-聚丙烯(TiO2/PC-PP)光扩散复合材料.分别采用SEM和DSC研究了纳米TiO2/PC-PP复合材料的微观结构和等温结晶性能,并研究了复合材料的热稳定性与光学性能.结果表明:纳米TiO2的加入使得光扩散体系中分散相的平均尺寸变小,形态更加均一,并且随着复合材料中纳米TiO2质量分数的增加,复合材料的半结晶时间逐渐延长,总体结晶速率变慢.纳米TiO2的加入使复合材料的初始热降解温度以及最终残余量升高,当PP中纳米TiO2质量分数为5%时,复合材料的透光率达到80%,雾度为88%,此时纳米TiO2/PC-PP复合材料的光扩散性能较好.
参考文献
| [1] | 张成;张群朝;蒋涛.纳米氧化锑锡增强聚碳酸酯的阻红外隔热性能[J].复合材料学报,2015(2):365-369. |
| [2] | 张宁;郭强.MAH-SBS和纳米CaCO3复合改性PC-ABS共混材料[J].复合材料学报,2014(3):591-596. |
| [3] | Hurst, S.M.;Farshchian, B.;Choi, J.;Kim, J.;Park, S..A universally applicable method for fabricating superhydrophobic polymer surfaces[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2012:85-90. |
| [4] | Kumar, V.;Sonkawade, R.G.;Dhaliwal, A.S..High electronic excitation induced modifications by 100 MeV O ~(7+) and 150 MeV Ni ~(11+) ions in Makrofol KG polycarbonate film[J].Nuclear Instruments and Methods in Physics Research, Section B. Beam Interactions with Materials and Atoms,2012:4-9. |
| [5] | Lin, D.;Cheng, H.;Zou, F.;Ning, W.;Han, C.C..Morphology evolution of a bisphenol A polycarbonate/poly (styrene-co-acrylonitrile) blend under shear and after shear cessation[J].Polymer: The International Journal for the Science and Technology of Polymers,20126(6):1298-1305. |
| [6] | 曹绍梅;李立;施利毅;冯欣;张雨.PET接枝改性纳米ZrO2/PC复合材料的力学性能[J].复合材料学报,2008(6):160-165. |
| [7] | Cai, X.;Li, B.;Pan, Y.;Wu, G..Morphology evolution of immiscible polymer blends as directed by nanoparticle self-agglomeration[J].Polymer: The International Journal for the Science and Technology of Polymers,20121(1):259-266. |
| [8] | 邹文奇;温变英;张扬.酯交换反应对PBT/PC/Al2O3复合材料导热性能的影响[J].高分子学报,2016(5):606-613. |
| [9] | Wang, Y.;Shi, Y.;Yang, J.;Huang, T.;Zhang, N..Modification of polycarbonate by adding poly(L -lactide)[J].Journal of Applied Polymer Science,20135(5):3333-3339. |
| [10] | S. H. Yeh;P. Y. Chen;Julie Harmon;Sanboh Lee.Kinetics of hardness evolution during annealing of gamma-irradiated polycarbonate[J].Journal of Applied Physics,201211(11):113509-1-113509-6. |
| [11] | Petra Potschke;Arup R.Bhattacharyya;Andreas Janke.Morphology and electrical resistivity of melt mixed blends of polyethylene and carbon nanotube filled polycarbonate[J].Polymer: The International Journal for the Science and Technology of Polymers,200326(26):8061-8069. |
| [12] | Petra Potschke;Arup R.Bhattacharyya;Andreas Janke.Carbon nanotube-filled polycarbonate composites produced by melt mixing and their use in blends with polyethylene[J].Carbon: An International Journal Sponsored by the American Carbon Society,20045/6(5/6):965-969. |
| [13] | Si M;Araki T;Ade H;Kilcoyne ALD;Fisher R;Sokolov JC;Rafailovich MH.Compatibilizing bulk polymer blends by using organoclays[J].Macromolecules,200614(14):4793-4801. |
| [14] | Ginzburg VV.;Paniconi M.;Peng GW.;Jasnow D.;Balazs AC.;Qiu F..Simulation of hard particles in a phase-separating binary mixture[J].Physical review letters,199920(20):4026-4029. |
| [15] | I.Gonzalez;J.I.Eguiazabal;J.Nazabal.New Clay-Reinforced Nanocomposites Based on a Polycarbonate/Polycaprolactone Blend[J].Polymer engineering and science,20067(7):864-873. |
| [16] | Supratim Suin;Bhanu B. Khatua.Exfoliated and Optically Transparent Polycarbonate/Clay Nanocomposites Using Phosphonium Modified Organoclay: Preparation and Characterizations[J].Industrial & Engineering Chemistry Research,201246(46):15096-15108. |
| [17] | 迟晓红;俞利;郑杰;高俊国;张晓虹.蒙脱土/聚丙烯复合材料结晶形态及耐电树枝化特性[J].复合材料学报,2015(1):76-84. |
| [18] | 杨波;陈光顺;李姜;郭少云.多壁碳纳米管增强炭黑/聚丙烯导电复合材料导电行为[J].复合材料学报,2009(4):41-46. |
| [19] | 高翔;毛立新;张猛响;金日光.凹凸棒土/聚丙烯/聚碳酸酯三元复合材料的力学性能及增韧机理[J].复合材料学报,2005(3):1-8. |
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