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材料导报  2019, Vol. 33 Issue (Z2): 577-579    
  高分子与聚合物基复合材料 |
水性光固化树脂研究进展
向科炜1, 林金斌2
1 湘江涂料科技有限公司,长沙 410003;
2 三棵树涂料股份有限公司,莆田 351100
Research Progress on the Waterborne UV Curable Resins
XIANG Kewei1, LIN Jinbin2
1 Xiangjiang Paint Group Co., LTD, Changsha 410003;
2 SKShu Coating Company Co., LTD, Putian 351100
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摘要 采用水性树脂替代相应的溶剂型树脂体系是目前涂料行业往环保化转型的重要途径。本文综述了水性光固化树脂在涂料领域的研究进展。介绍了水性光固化树脂的种类、合成原理及应用特性。针对目前水性光固化树脂的应用现状,介绍了水性光固化树脂在提升固含、平衡硬度与柔韧性、双重固化体系的设计以及改进漆膜性能方面的研究进展,并对未来的发展方向进行了展望。
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向科炜
林金斌
关键词:  水性树脂  紫外光固化  双重固化  水性聚氨酯    
Abstract: Replacing traditional solventborne resin system by the corresponding waterborne resin is an important way to make the coating industry more environmental friendly. This paper summerized the research progress of the waterborne UV curable resins used in the coating industry. The resin type, synthesize mechanisms and applying characters of the waterborne UV system have been introduced. Based on the recent development of waterborne UV curable resins, we have introduced the research progress on increasing the solid content, balancing the hardness and flexibility, designing dual cure system and improving the film properties of the UV curable resins. Finally, the future trends of this system have been envisaged.
Key words:  waterborne resins    UV curable    dual cure    polyurethane dispersion
               出版日期:  2019-11-25      发布日期:  2019-11-25
ZTFLH:  TQ322  
基金资助: 福建省自然科学基金(2016J06021)
通讯作者:  drjinbinlin@163.com   
作者简介:  林金斌,南京工业大学化学工程博士毕业。目前主要从事纳米颗粒的制备、颗粒表面改性、改性颗粒应用以及超疏水涂层研究等相关工作,并在国内外学术刊物和学术会议上面发表了十余篇论文。现任三棵树涂料股份有限公司研发部研发经理一职,主要从事外墙自清洁涂料以及外墙隔热保温涂料的开发,并担任这几个项目的项目主要技术负责人。
向科炜,四川大学高分子科学与工程专业博士毕业,目前主要从事环保性功能性涂料树脂及助剂的开发研究,发表SCI论文10余篇,其中第一作者5篇。毕业后先后在三棵树涂料股份有限公司,湛新树脂(中国)有限公司担任高级化学师职位,现任湘江涂料科技有限公司新产品研发室主任一职,负责工程机械用高固低粘丙烯酸树脂,水性环氧树脂及环氧固化剂,聚脲涂料用聚天门冬氨酸树脂的开发。
引用本文:    
向科炜, 林金斌. 水性光固化树脂研究进展[J]. 材料导报, 2019, 33(Z2): 577-579.
XIANG Kewei, LIN Jinbin. Research Progress on the Waterborne UV Curable Resins. Materials Reports, 2019, 33(Z2): 577-579.
链接本文:  
http://www.mater-rep.com/CN/  或          http://www.mater-rep.com/CN/Y2019/V33/IZ2/577
1 罗雪方,赵秀丽,黄奕刚,等.化工新型材料,2009,37(3),9.
2 Dvorchak M J,Riberi B H. Journal of Coatings Technology,1992,64(808),43.
3 Wood K A. ACS Symposium Series,1997,663(1),126.
4 陈明,洪啸吟.涂料工业,1999,29(12),30.
5 Jung S J,Lee S J,Cho W J,et al. Journal of Applied Polymer Science,1998,69(4),695.
6 Yang J W,Wang Z M,Zeng Z H. Journal of Applied Polymer Science,2002,84(10),1818.
7 Brindoepke G, Zoeller J. US patent,5391613,1995.
8 Oorschot J C V, Tennebroek R, Swaans R J M, et al. US patent,9260558,2016-02-16.
9 Sommer S,Ludewig M,Fischer W, et al. US patent,9057003,2015-06-16.
10 Muller M,Kopp R,Fischer W,et al. US patent,2006/0094819,2006-05-04.
11 Urbano E,Kuttler U,Gerlitz M,et al. US patent,6265461,2001-07-24.
12 Sommer S,Rische T,Luehmann E. US patent,9567423,2017-02-14.
13 Tielemans M, Bontinck D, Overvelt J.US patent,9085655,2015-07-21.
14 Tielemans M.US patent,8853318,2014-10-07.
15 Dannhorn W,Hecht R,Hoppe L,et al.US patent,5684081,1997-11-04.
16 Sommer S, Blum H,Lippemeier J,et al. US patent,9034985,2015-05-19.
17 Waele L D,Peeters S,Randoux T,et al. US patent,8846786,2014-09-30.
18 Sommer S, Luehmann E,Flores J. US patent,9676894, 2017-06-13.
19 Schwalm R,Paulus W,Meisenburg U,et al. US patent,6747088,2004-06-08.
20 Tennebroek R,Casteren I V. US patent,9994730,2018-06-12.
21 Lunzer F,Awad R R. US patent,7728054,2010-06-01.
22 Holen J,Cappelle S,Deruyttere X,et al. US patent,9163111,2015-10-20.
23 Tielemans M,Salviato J,Baurant J. US patent,10266721,2019-04-23.
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