Effect of ZnO nanoparticles on anti-aging properties of polyurethane coating 被引量：6

Effect of ZnO nanoparticles on anti-aging properties of polyurethane coating

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摘要 Polyurethane nano-coatings were prepared by adding nano-concentrates with nanometer zinc oxide (nano-ZnO) to polyurethane coating. The dispersion state of nanoparticles was observed by TEM images. SEM observation and FT-IR analysis indicate that the nano-coating with 1% ZnO nanoparticles can retain better morphological structure than the nano-coating with 5% ZnO nanoparticles after 500 h accelerated aging. It is known from XPS analysis that the anti-oxidation properties of polyurethane coating are enhanced by 1% ZnO nanoparticles through the nano-network and destroyed by 5% ZnO nanoparticles due to the strong light catalysis. A small change in capacitances of nano-coatings with 1% ZnO nanoparticles before and after accelerated aging indicates that 1% ZnO nanoparticles improve the corrosion resistance of coating, while a large increase in capacitances of nano-coating with 5% ZnO nanoparticles before and after accelerated aging demonstrates that 5% ZnO nanoparticles damage the corrosion resistance of coating. Polyurethane nano-coatings were prepared by adding nano-concentrates with nanometer zinc oxide （nano-ZnO） to polyurethane coating. The dispersion state of nanoparticles was observed by TEM images. SEM observation and FT-IR analysis indicate that the nano-coating with 1% ZnO nanoparticles can retain better morphological structure than the nano-coating with 5% ZnO nanoparticles after 500 h accelerated aging. It is known from XPS analysis that the anti-oxidation properties of polyurethane coating are enhanced by 1% ZnO nanoparticles through the nano-network and destroyed by 5% ZnO nanoparticles due to the strong light catalysis. A small change in capacitances of nano-coatings with 1% ZnO nanoparticles before and after accelerated aging indicates that 1% ZnO nanoparticles improve the corrosion resistance of coating, while a large increase in capacitances of nano-coating with 5% ZnO nanoparticles before and after accelerated aging demonstrates that 5% ZnO nanoparticles damage the corrosion resistance of coating.

作者 WANG ZhenYu LIU FuChun HAN EnHou KE Wei LUO SuZhen

机构地区 State Key Laboratory for Corrosion and Protection

出处《Chinese Science Bulletin》 SCIE EI CAS 2009年第19期3464-3472,共9页

基金 Supported by the National Key Technology R & D Program (Grant No. 2007BAB27B02-02)

关键词聚亚胺酯材料金属腐蚀腐蚀状态氧化鋅 TEM ZnO nanoparticles, nano-concentrates, polyurethane nano-coating, accelerated aging, resistance to weathering

分类号 TG17 [金属学及工艺—金属表面处理]

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参考文献11

1Min Zhi Rong,Ming Qiu Zhang,Yong Xiang Zheng,Han Min Zeng,R. Walter,K. Friedrich.Irradiation graft polymerization on nano-inorganic particles: An effective means to design polymer-based nanocomposites[J].Journal of Materials Science Letters.2000(13)
2Farrier L M,,Szaruga S L.Sample preparation and characterization of artificially aged aircraft coatings for microstructural analysis[].Materials Characterization.2005
3Jalili M M,Moradian S,Dastmalchian H, et al.Investigating the variations in properties of 2-pack polyurethane clear coat through separate incorporation of hydrophilic and hydrophobic nano-silica[].Progress in Organic Coatings.2007
4Zhou S X,Wu L M,Sun J,et al.The change of the properties of acrylic-based polyurethane via addition of nano-silica[].Progress in Organic Coatings.2002
5Reynaud E,Jouen T,Gauthier C.Nanofillers in polymeric matrix: a study on silica reinforced PA6[].Polymer.2001
6Scully JR.Electrochemical impedance of polymer-coated steel correlation of impedance parameters with long-term coatings deterioration[].Journal of the Electrochemical Society.1989
7Bierwagen,GP.The Science of Durability of Organic Coatings—A Foreword[].Progress in Organic Coatings.1987
8Jonathan W. Martin Joannie W. Chin and Tinh Nguyen.Reciprocity law experiments in polymeric photodegradation: a critical review[].Progress in Organic Coatings.2003
9R. Hong,T. Pan,J. Qian,H. Li.Synthesis and surface modification of ZnO nanoparticles[].Chemical Engineering.2006
10Allen N S,,Edge M,Ortega A, et al.Degradation and stabilisation of polymers and coatings: nano versus pigmentary titania particles[].Polymer Degradation and Stability.2004

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1刘涛,张学俊,孟欢.有机硅/丙烯酸复合改性水性聚氨酯的合成及性能[J].化工中间体,2012,8(1):56-60. 被引量：4
2陈泉水.活性CaCO_3纳米粉填充环氧树脂研究[J].非金属矿,2004,27(5):3-5. 被引量：4
3刘福春,韩恩厚,柯伟.纳米TiO_2/聚氨酯复合涂层的光催化活性研究[J].功能材料,2005,36(1):129-132. 被引量：8
4朱永华,姚敬华,林仲玉,金晓鸿,林昌健.聚氨酯面漆光老化机理的探讨[J].涂料工业,2005,35(6):44-47. 被引量：16
5张强,刘永美.纳米碳酸钙的制备及其应用进展[J].化学工业与工程技术,2005,26(3):30-32. 被引量：24
6王训遒,李燕红,蒋登高,胡晓茹.纳米CaCO_3在环氧树脂中的分散及其复合涂料的制备[J].化工新型材料,2005,33(6):66-68. 被引量：7
7刘艳辉,周欣,张鹏,徐瑞芬.可见光下纳米TiO_2粉末对芽孢抗菌作用的研究[J].化工新型材料,2005,33(6):74-75. 被引量：3
8侯翠红,周铭.纳米碳酸钙在涂料中的应用现状与展望[J].涂料工业,2005,35(11):39-41. 被引量：12
9杨立红,刘福春,韩恩厚.纳米氧化锌改性聚氨酯复合涂层的防腐性能[J].材料研究学报,2006,20(4):354-360. 被引量：29
10Hongwei SHI Fuchun LIU Enhou HAN Yinghua WEI.Effects of Nano Pigments on the Corrosion Resistance of Alkyd Coating[J].Journal of Materials Science & Technology,2007,23(4):551-558. 被引量：3

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1王震宇,刘福春,韩恩厚,柯伟.纳米改性聚氨酯涂料在海洋大气及飞溅区的应用研究[J].中国涂料,2011,26(10):36-39. 被引量：3
2刘明明,刘福春,韩恩厚,唐囡,万军彪,邓静伟.纳米碳酸钙浓缩浆对环氧涂层耐蚀性的影响[J].材料研究学报,2013,27(4):425-431. 被引量：3
3郝庆辉,于清章,武琳琳,邱再明.纳米复合涂料的发展现状及未来发展趋势[J].中国涂料,2014,29(5):13-16. 被引量：4
4武世凯,钱天宝,董喜超,鲁明杰.聚氨酯改性的研究进展[J].江苏建材,2015(2):28-31.
5孙伟,尹桂来,刘福春,唐囡,韩恩厚,万军彪,邓静伟.纳米Cr_2O_3对环氧涂层耐腐蚀性的影响[J].材料研究学报,2014,28(12):934-941. 被引量：1
6Fuchun Liu,En-Hou Han,Wei Ke.Adsorption and stabilization of nano-TiO_2 particles in a concentrated dispersion[J].Progress in Natural Science:Materials International,2013,23(5):464-468.

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7孙伟,尹桂来,刘福春,唐囡,韩恩厚,万军彪,邓静伟.纳米Cr_2O_3对环氧涂层耐腐蚀性的影响[J].材料研究学报,2014,28(12):934-941. 被引量：1
8刘玉欣,石凤娟,吕耀辉,魏世丞,王玉江,何东昱,王文宇.纳米或多孔氧化铬粒子制备的研究进展[J].无机盐工业,2019,51(10):1-6. 被引量：4
9肖雯雯,江玉发,杨建勃,时腾,高多龙,蔡锐.纳米改性环氧粉末涂层在塔河油田的适应性研究[J].电镀与涂饰,2020,39(10):634-641. 被引量：2
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1樊爱园.聚亚胺酯防腐漆在换热器管程内壁上的应用[J].腐蚀与防护,2007,28(6):310-311.
2AXSON创新真空铸造技术[J].塑胶工业,2000(2):106-106.
3徐生林.由滑动图象观察计算前后滑[J].钢铁研究,1989,17(2):28-31.
4WANG En-qing,ZHANG Xin.Polyurethane coating for ductile iron pipes[J].China Foundry,2006,3(2):87-90.
5孙文彬.碳硫红外分析技术在铸铁中的应用[J].重庆钢铁高等专科学校学报,1993,8(1):50-53.
6丁红燕,周广宏.(Ni-P)-Al_2O_3纳米微粒化学复合镀——表面活性剂对镀层组织的影响[J].电镀与精饰,2005,27(1):4-7. 被引量：12
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8武元元,孙建林,周福伟,王冰.Nano-ZnO添加剂对冷轧轧制液润滑性能的影响[J].材料科学与工艺,2012,20(6):136-141. 被引量：2
9徐焕翔,蔡颖颖,李勇.浅析助焊剂在使用过程中发生的物理化学变化[J].电子质量,2012(12):58-60.
10王恩清,张鑫.聚氨酯涂层球墨铸铁管的研制[J].铸造,2004,53(6):452-455. 被引量：1

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Effect of ZnO nanoparticles on anti-aging properties of polyurethane coating 被引量：6

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