水性树脂

水性树脂是使用水而不是有机溶剂作为介质的聚合物，通常包含所有以水为主要载体的树脂，其可以是水溶性的、或分散在水中^[1]^[2]。水性树脂常用于涂料、粘合剂、密封剂、弹性体和复合材料^[3]^[4]。

发展[编辑]

大多数涂料有四种基本成分—树脂、溶剂、颜料和添加剂，但主要成分是树脂^[5]。随着许多国家建立环境保护法规以及石化原料供应问题，促使越来越多化学家及企业转向开发水性涂料技术，并且由于树脂／聚合物是涂料中最重要的部分。水通常是一种低成本（但不是免费）的商品，供应充足，没有毒性问题．因此以水作为载体来生产油漆、油墨、粘合剂和纺织品施胶剂等的需求一直存在。1960 年代以美国为首开始，水性涂料的用量开始增长，其理由是：1) 降低涂料的可燃性（安全因素）； 2) 减少排放到大气中的挥发性有机物； 3) 成本^[6]，以上都有助于减少对石油衍生溶剂的依赖。近年来，从立法层面导致的开发压力导致了水性树脂越来越受到关注。^[7]^[8]^[9]

水性树脂种类[编辑]

水性环氧树脂[编辑]

环氧树脂系统一般由固化剂和环氧树脂组成，固化剂和环氧树脂都可以制成水性的。以助溶剂和表面活性剂的乳化的水性环氧树脂（分子量 >1000）分散乳液很容易可从市场取得。环氧树脂主链经常被修饰增加亲水性以确保乳化性。

干燥过程中，树脂颗粒随着溶剂挥发凝结聚集成膜，为了固化树脂并使其交联，通常添加胺基固化剂，称为双组分系统^[10]。

水性聚氨酯[编辑]

水性聚氨酯系指分散在水中的聚胺酯树酯，分为阴离子、阳离子、非离子型，其中以阴离子型最为常见^[11]。水性聚氨酯借由引入亲水基团使树脂能被分散在水中，但亲水性基团会导致制成之成品防水性不佳，研究者们正在针对此问题进行开发研究^[12]，如引入聚二甲基硅氧烷等结构^[13]。水性聚氨酯也有二组分版本，由于二组分聚氨酯由多元醇与异氰酸酯及水与异氰酸酯反应固化，因此需要特殊的配方跟合成技术^[14]^[15]，例如利用磺酸盐改质异氰酸酯^[16]。

参见[编辑]

^ Bicak, Niyazi; Gazi, Mustafa; Karagoz, Bunyamin. New water-soluble polymer with allyl pendant groups. Designed Monomers and Polymers. 2006-01-01, 9 (2): 193–200. S2CID 101639021. doi:10.1163/156855506776382646.
^ Waterborne Resins. Allnex. [2020-03-24]. （原始内容存档于2020-03-25）.
^ Padget, John. Polymers for waterbased coatings - A Systematic Overview. JCT Journal of Coatings Technology. 1994, 66 (839): 89–105.
^ Annable, T; Brown, R A; Padget, J C; van den Elshout, A. Improvements in the application properties of water-based low VOC coatings. Surface Coatings International. July 1998, 81 (7): 321–329. ISSN 1356-0751. S2CID 59152908. doi:10.1007/bf02700556.
^ Waterborne coatings and additives. Karsa, D. R., Davies, W. D., Royal Society of Chemistry (Great Britain), Society of Chemical Industry (Great Britain). Cambridge, UK: Royal Society of Chemistry. 1995. ISBN 0-85404-740-9. OCLC 33164476.
^ Jackson, K. Recent advances in water-borne protective coatings. Surface Coatings International. 1999-07-01, 82 (7): 340–343. ISSN 1356-0751. S2CID 135613088. doi:10.1007/BF02720130 （英语）.
^ Thames S.F. “Conversion to Water-Soluble/Water-borne polymers” February 1996 Lecture notes from the University of Southern Mississippi short course
^ Waterborne Industrial Coatings: Evolving Perceptions and Technologies. www.coatingstech-digital.org. [2021-07-22]. （原始内容存档于2022-01-28）（英语）.
^ CoatingsTech - Waterborne Direct-to-Metal Coatings: Enduring Solutions in Corrosion Protection. www.coatingstech-digital.org. [2022-07-07] （英语）.
^ Richardson F.B “Water-borne Epoxy Coatings: Past, Present and Future” Modern Paints and Coatings April 1988 pages 84-88
^ Water Based Polyurethanes Dispersions(PUDs)-An Overview. www.linkedin.com. [2020-03-24]. （原始内容存档于2018-11-10）（英语）.
^ Xu, Liangfeng. CO2 triggered hydrophobic/hydrophilic switchable waterborne polyurethane-acrylate with simultaneously improved water resistance and mechanical properties. Journal of Coatings Technology and Research (American Coatings Association). July 2021, 18 (4): 989–998. ISSN 1547-0091. S2CID 233176697. doi:10.1007/s11998-021-00476-y.
^ He, Xiaoling; He, Jingwei; Sun, Yangkun; Zhou, Xiaopei; Zhang, Jingying; Liu, Fang. Preparation and characterization of cationic waterborne polyurethanes containing a star-branched polydimethylsiloxane. Journal of Coatings Technology and Research. 2022-07-01, 19 (4): 1055–1066. ISSN 1935-3804. doi:10.1007/s11998-021-00584-9 （英语）.
^ EP 2523987,Nachshon-Galili, Nitsa & Reut Sussan,“Two-component water-based polyurethane compositions and coatings”,发表于2012-11-21
^ The Case for Two-Component Waterborne Polyurethane Coatings. www.pcimag.com. [2020-03-25]. （原始内容存档于2020-03-25）（英语）.
^ Peng, Zhongkang. Synthesis and properties of water-dispersible polyisocyanates carrying sulfonate. J. Coat. Technol. Res. 2020, 17 (2): 345–359. S2CID 207989601. doi:10.1007/s11998-019-00277-4.

延伸阅读[编辑]

Epoxy resin technology.. Paul F. Bruins, Polytechnic Institute of Brooklyn. New York: Interscience Publishers. 1968. ISBN 0-470-11390-1. OCLC 182890.
Flick, Ernest W. Epoxy resins, curing agents, compounds, and modifiers : an industrial guide. Park Ridge, NJ. 1993. ISBN 978-0-8155-1708-5. OCLC 915134542.
Lee, Henry. Handbook of epoxy resins. Kris Neville [2nd, expanded work]. New York: McGraw-Hill. 1967. ISBN 0-07-036997-6. OCLC 311631322.
Philip Sherman; British Society of Rheology. Rheology of emulsions: proceedings of a symposium held by the British Society of Rheology ... Harrogate, October 1962. Macmillan. 1963. ISBN 9780080102900.

外部链接[编辑]

Covestro （页面存档备份，存于互联网档案馆）
DSM （页面存档备份，存于互联网档案馆）
DIC （页面存档备份，存于互联网档案馆）
PU General Info （页面存档备份，存于互联网档案馆）
Incorez range （页面存档备份，存于互联网档案馆）
Allnex website （页面存档备份，存于互联网档案馆）
Hexion Waterbone Resins （页面存档备份，存于互联网档案馆）
ARKEMA Waterborne Resins （页面存档备份，存于互联网档案馆）
Alkyd Emulsions- Van Horn, Metz & Co. Inc. （页面存档备份，存于互联网档案馆）

[1] Bicak, Niyazi; Gazi, Mustafa; Karagoz, Bunyamin. New water-soluble polymer with allyl pendant groups. Designed Monomers and Polymers. 2006-01-01, 9 (2): 193–200. S2CID 101639021. doi:10.1163/156855506776382646.

[2] Waterborne Resins. Allnex. [2020-03-24]. （原始内容存档于2020-03-25）.

[3] Padget, John. Polymers for waterbased coatings - A Systematic Overview. JCT Journal of Coatings Technology. 1994, 66 (839): 89–105.

[4] Annable, T; Brown, R A; Padget, J C; van den Elshout, A. Improvements in the application properties of water-based low VOC coatings. Surface Coatings International. July 1998, 81 (7): 321–329. ISSN 1356-0751. S2CID 59152908. doi:10.1007/bf02700556.

[5] Waterborne coatings and additives. Karsa, D. R., Davies, W. D., Royal Society of Chemistry (Great Britain), Society of Chemical Industry (Great Britain). Cambridge, UK: Royal Society of Chemistry. 1995. ISBN 0-85404-740-9. OCLC 33164476.

[6] Jackson, K. Recent advances in water-borne protective coatings. Surface Coatings International. 1999-07-01, 82 (7): 340–343. ISSN 1356-0751. S2CID 135613088. doi:10.1007/BF02720130 （英语）.

[7] Thames S.F. “Conversion to Water-Soluble/Water-borne polymers” February 1996 Lecture notes from the University of Southern Mississippi short course

[8] Waterborne Industrial Coatings: Evolving Perceptions and Technologies. www.coatingstech-digital.org. [2021-07-22]. （原始内容存档于2022-01-28）（英语）.

[9] CoatingsTech - Waterborne Direct-to-Metal Coatings: Enduring Solutions in Corrosion Protection. www.coatingstech-digital.org. [2022-07-07] （英语）.

[10] Richardson F.B “Water-borne Epoxy Coatings: Past, Present and Future” Modern Paints and Coatings April 1988 pages 84-88

[11] Water Based Polyurethanes Dispersions(PUDs)-An Overview. www.linkedin.com. [2020-03-24]. （原始内容存档于2018-11-10）（英语）.

[12] Xu, Liangfeng. CO2 triggered hydrophobic/hydrophilic switchable waterborne polyurethane-acrylate with simultaneously improved water resistance and mechanical properties. Journal of Coatings Technology and Research (American Coatings Association). July 2021, 18 (4): 989–998. ISSN 1547-0091. S2CID 233176697. doi:10.1007/s11998-021-00476-y.

[13] He, Xiaoling; He, Jingwei; Sun, Yangkun; Zhou, Xiaopei; Zhang, Jingying; Liu, Fang. Preparation and characterization of cationic waterborne polyurethanes containing a star-branched polydimethylsiloxane. Journal of Coatings Technology and Research. 2022-07-01, 19 (4): 1055–1066. ISSN 1935-3804. doi:10.1007/s11998-021-00584-9 （英语）.

[14] EP 2523987,Nachshon-Galili, Nitsa & Reut Sussan,“Two-component water-based polyurethane compositions and coatings”,发表于2012-11-21

[15] The Case for Two-Component Waterborne Polyurethane Coatings. www.pcimag.com. [2020-03-25]. （原始内容存档于2020-03-25）（英语）.

[16] Peng, Zhongkang. Synthesis and properties of water-dispersible polyisocyanates carrying sulfonate. J. Coat. Technol. Res. 2020, 17 (2): 345–359. S2CID 207989601. doi:10.1007/s11998-019-00277-4.

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