水性聚氨酯增韧环氧树脂研究及应用进展

doi:10.11896/cldb.20050240

材料导报

2021, Vol. 35

Issue (13): 13205-13214 https://doi.org/10.11896/cldb.20050240

高分子与聚合物基复合材料

水性聚氨酯增韧环氧树脂研究及应用进展

陈阳, 刘志勇^*, 管焓宇, 钱百惠

烟台大学土木工程学院,烟台 264000

Advances in Research and Applications of Waterborne Polyurethane Toughened Epoxy Resin

CHEN Yang, LIU Zhiyong^*, GUAN Hanyu, QIAN Baihui

College of Civil Engineering, Yantai University, Yantai 264000, China

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摘要传统聚氨酯增韧环氧树脂以有机溶剂为基础,由于其挥发性有机物含量高,在生产安全性和环境保护等方面存在较多问题,其应用正逐步受到限制。目前国内外对水性体系中环氧树脂增韧技术的研究及成果较少,水性环氧树脂仍存在脆性较大、耐水性及耐候性不足等问题,因此研究水性聚氨酯增韧环氧树脂具有重要的工程意义和广阔的应用前景。本文在分析溶剂型环氧树脂增韧方法的基础上,综述了国内外水性聚氨酯增韧环氧树脂的制备原理及应用进展,并讨论了聚氨酯增韧环氧树脂乳液制备技术的设计思路,分析了聚氨酯柔性纳米粒子与无机刚性纳米粒子协同增韧水性环氧树脂的机理,探讨了固化剂及固化工艺等对增韧水性环氧树脂性能的影响,最后介绍了增韧水性环氧树脂用于工程结构防护与修复领域的最新进展。

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关键词: 水性环氧树脂聚氨酯增韧改性

Abstract: Traditional polyurethane toughened epoxy resin is based on organic solvents. Due to its high content of volatile organic compounds, there are many problems in production safety and environmental protection, and its application is gradually being restricted. At present, there are few researches and achievements on the toughening technology of epoxy resin in waterborne systems at home and abroad, and waterborne epoxy resins still have problems such as high brittleness, insufficient water resistance and weather resistance. Therefore, the study of waterborne polyurethane toughened epoxy resin has important engineering significance and broad application prospects. Based on the analysis of solvent-based epoxy resin toughening methods, this article reviews the preparation principles and application progress of waterborne polyurethane toug-hened epoxy resins at home and abroad, and discusses the design ideas of the preparation technology of polyurethane toughened epoxy emulsions. The mechanism of polyurethane flexible nanoparticles and inorganic rigid nanoparticles synergistically toughening waterborne epoxy resin is analyzed, and the effect of curing agent and curing process on the performance of toughened waterborne epoxy resin is discussed. Finally, the latest development of toughened waterborne epoxy resin used in the protection and repair of engineering structures is introduced.

Key words: waterborne epoxy resin polyurethane toughening modification

出版日期: 2021-07-10 发布日期: 2021-07-15

ZTFLH:

TQ323.5

基金资助: 国家自然科学基金(51678512);烟台大学研究生创新基金(YDYB2005)

作者简介: 陈阳,土木与建筑工程硕士研究生,从事混凝土结构耐久性提升技术研究。
刘志勇,博士,教授,主要研究兴趣为混凝土材料与结构的耐久性及耐久性提升技术、钢筋混凝土的腐蚀防护与修复技术的研究与开发。在国内外重要期刊发表学术论文50余篇,其中SCI/EI收录30余篇,获国家发明专利5项,出版专著1部。

引用本文:

陈阳, 刘志勇, 管焓宇, 钱百惠. 水性聚氨酯增韧环氧树脂研究及应用进展[J]. 材料导报, 2021, 35(13): 13205-13214.
CHEN Yang, LIU Zhiyong, GUAN Hanyu, QIAN Baihui. Advances in Research and Applications of Waterborne Polyurethane Toughened Epoxy Resin. Materials Reports, 2021, 35(13): 13205-13214.

链接本文:

http://www.mater-rep.com/CN/10.11896/cldb.20050240 或 http://www.mater-rep.com/CN/Y2021/V35/I13/13205

1 Sun M L. Application principle and technology of epoxy resin, China Machine Press, China,2002(in Chinese).
孙曼灵.环氧树脂应用原理与技术,机械工业出版社,2002.
2 Jin F L, Li X, Park S J. Journal of Industrial and Engineering Chemistry,2015,29,1.
3 Shao Y P, Xu F J, Liu W, et al. Composites Part B, Engineering,2017,125,195.
4 Yang J P, Chen Z K, Feng Q P, et al. Composites Part B, Engineering,2012,43(1),22.
5 Tian N, Ning R C, Kong J. Polymer,2016,99,376.
6 Awaja F, Zhang S N, Tripathi M, et al. Progress in Materials Science,2016,83,536.
7 Zaman I, Phan T T, Kuan H C, et al. Polymer,2011,52(7),1603.
8 Zhou H S, Xu S A. Materials Letters,2014,121,238.
9 Tripathi G, Srivastava D. Materials Science and Engineering, A,2008,496(1-2),483.
10 Dadfar M R, Ghadami F. Materials and Design,2013,47,16.
11 Guo L Y, Wang L Y, Su X. Advanced Materials Research,2012,490-495,3598.
12 Guo Q P, Figueiredo P, Thomann R, et al. Polymer,2001,42(26),10101.
13 Rico M, Lopez J, Mantero B, et al. European Polymer Journal,2012,48(10),1660.
14 Liu S, Chevali V S, Xu Z G, et al. Composites Part B, Engineering,2018,136,197.
15 Shirvanimoghaddam K, Hamim S U, Akbari M K, et al. Composites Part A, Applied Science and Manufacturing,2017,92,70.
16 Zabihi O, Ahmadi M, Nikafshar S, et al. Composites Part B, Enginee-ring,2018,135,1.
17 Chen S B, Wang Q H, Wang T M. Polymer Testing,2011,30(7),726.
18 Tang E J, Yao M M, Du P Y, et al. Journal of Polymer Research,2016,23(9),204.
19 Shen J Q, Zhang Y F, Kuang J Z, et al. China Synthetic Rubber Industry,2004,27(3),187(in Chinese).
申景强,张亚峰,邝健政,等.合成橡胶工业,2004,27(3),187.
20 Li H J, Liu W Q, Wei Z J. Polymer Materials Science and Engineering,2011,27(11),61(in Chinese).
李宏静,刘伟区,魏振杰.高分子材料科学与工程,2011,27(11),61.
21 Chen S F, Xu Z J, Zhang D H. Chemical Engineering Journal,2018,343,283.
22 Sampath P S, Murugesan V, Sarojadevi M, et al. Polymer Composites,2008,29(11),1227.
23 Liu H C, Gao X X, Deng B, et al. Journal of Applied Polymer Science,2018,135(23),132.
24 Chen S Y, Zhang J H, Zhou J L, et al. Chemical Engineering Journal,2018,334,1371.
25 Hao Z H, Li L, Liao X, et al. Polymer Bulletin,2018,75(3),1013.
26 He Z L, Jiang S, An N, et al. Journal of Materials Science,2019,54(11),8262.
27 Liu G F, Wu G M, Chen J, et al. Polymer Degradation and Stability,2015,121,247.
28 Balgude D, Sabnis A, Ghosh S K. European Polymer Journal,2016,85,620.
29 Bahrami A, Cordenier F, Velthem V P, et al. Composites Part A,2016,91,398.
30 Yang B, Wang W Y, Huang J J. Polymer,2015,77,129.
31 Sun T, Guan J G, Yu J Y, et al. Polymeric Materials Science and Engineering,2005,21(1),117(in Chinese).
孙涛,官建国,余剑英,等.高分子材料科学与工程,2005,21(1),117.
32 Li X H, Yi H L, Zheng B C. Thermosetting Resin,2015,30(6),1(in Chinese).
李晓辉,易红玲,郑柏存.热固性树脂,2015,30(6),1.
33 Wu T, Liu Y, Li N, et al. Polymer Testing,2019,74,45.
34 Reghunadhan A, Datta J, Kalarikkal N, et al. Polymer,2017,117,96.
35 Zilinski J M, Vratsanos M S, Laurer J H, et al. Polymer,1996,37(1),75.
36 Andideh M, Esfandeh M. Carbon,2017,123,233.
37 Lv X S, Huang Z X, Huang C, et al. Composites Part B, Engineering,2016,88,139.
38 Yang Y F, Tang G P, Cheng H F, et al. Materials Reports A:Research Papers,2010,24(8),85(in Chinese).
杨永锋,唐耿平,程海峰,等.材料导报:综述篇,2010,24(8),85.
39 Chaudhary S, Parthasarathy S, Kumar D, et al. Journal of Applied Polymer Science, DOI:10.1002/app.40490.
40 Dong F Q, Zhu G P, Deng Y Q, et al. Materials Review,2003,17(9),36(in Chinese).
董发勤,朱桂平,邓跃全,等.材料导报,2003,17(9),36.
41 Yang Z Z, Xu Y Z, Zhao D L, et al. Polymer Bulletin,1997,(3),190(in Chinese).
杨振忠,许元泽,赵得禄,等.高分子通报,1997(3),190.
42 Chen T, Gu G F. Journal of Building Materials,2001,4(4),356(in Chinese).
陈铤,顾国芳.建筑材料学报,2001,4(4),356.
43 Alagi P, Ghorpade R, Choi Y J, et al. ACS Sustainable Chemistry and Engineering,2017,5(5),3871.
44 Shen J Q, Zhang Y F, Qiu J D, et al. Journal of Materials Science,2004,39,6383.
45 Wang Y L, Hou L J, Liu Z Y, et al. Materials Review B:Research Papers,2019,33(7),2456(in Chinese).
王玉龙,侯立杰,刘志勇,等.材料导报:研究篇,2019,33(7),2456.
46 刘志勇,侯立杰,王玉龙.中国专利,CN109651922A,2019.
47 Liu H J, Wang X D, Nie H, et al. Paint and Coatings Industry,2004,34(2),30(in Chinese).
刘汉杰,王旭东,聂轰,等.涂料工业,2004,34(2),30.
48 Zhang C, Wang H R, Zhou Q X. Green Chemistry,DOI:10.1039/C9GC03335A.
49 Yang H G, Yang J J, Wu Q Y, et al. Paint and Coatings Industry,2016,46(8),53(in Chinese).
杨红光,杨建军,吴庆云,等.涂料工业,2016,46(8),53.
50 Deng J R, Jiang W S, Liu F B, et al. Journal of Hunan University (Natural Sciences),2019,46(6),56(in Chinese).
邓剑如,江维胜,刘芳波,等.湖南大学学报(自然科学版),2019,46(6),56.
51 Wen X F, Mi R L, Huang Y, et al. Journal of Coatings Technology and Research,2010,7(3),373.
52 Ma J Z, Liu Y H, Bao Y, et al. Advances in Colloid and Interface Science,2013,197,118.
53 Bai L, Huan S Q, Zhang X, et al. International Journal of Adhesion and Adhesives,2016,70,152.
54 Zhu K, Li X R, Li J Y, et al. Journal of Coatings Technology and Research,2017,14(6),1315.
55 Sun J, Fang H G, Wang H L, et al. Journal of Polymer Engineering,2017,37(2),113.
56 Chen Y J, Chen S Y, Wang Y F, et al. Journal of Applied Polymer Science,2006,99(1),107.
57 Yang Y W, Wang N, Ren J F, et al. Materials Reports A:Review Papers,2019,33(10),3242(in Chinese).
杨亚文,王娜,任俊芳,等.材料导报:综述篇,2019,33(10),3242.
58 Wang G J, Kang C S, Jin R G. Progress in Organic Coatings,2004,50(1),55.
59 Shen N X, Cheng G X, Yao T D, et al. Polymeric Materials Science and Engineering,1987,(3),22(in Chinese).
沈宁祥,成国祥,姚康德,等.高分子材料科学与工程,1987,(3),22.
60 Zhang J J, Huang H, Ma J, et al. Frontiers in Materials,2019,6,1.
61 Sun Y S, Zhao S Q, Lin X Y, et al. Acta Polymerica Sinica,1988(2),101(in Chinese).
孙以实,赵世琦,林秀英,等.高分子学报,1988(2),101.
62 Mai S F, Fang W S, Li J W. Construction Technology,2005,34(4),36(in Chinese).
买淑芳,方文时,李敬玮.施工技术,2005,34(4),36.
63 Xue S K, Zhang W, Hou W G. Thermosetting Resin,2005,20(5),36(in Chinese).
薛书凯,张炜,侯卫国.热固性树脂,2005,20(5),36.
64 Xiao J M, Chen Z H, Gong X C, et al. Journal of University of Science and Technology Beijing,2005,27(2),218(in Chinese).
肖久梅,陈章华,龚秀春,等.北京科技大学学报,2005,27(2),218.
65 Yao X F, Gao Y, Li J, et al. Thermosetting Resin,2011,26(1),16(in Chinese).
姚兴芳,高宇,李健,等.热固性树脂,2011,26(1),16.
66 Ji G Z, Liu W M, Qi C Z, et al. Polymer Bulletin,2009(1),50(in Chinese).
季根忠,刘维民,齐陈泽,等.高分子通报,2009(1),50.
67 He B L, Sun J. Powder Metallurgy Industry,2009,19(4),48(in Chinese).
何柏林,孙佳.粉末冶金工业,2009,19(4),48.
68 LI S P, WU Q S, Zhu H J, et al. Polymers,2017,9(12),684.
69 Bahramnia H, Semnani H M, Habibolahzadeh A, et al. Journal of Composite Materials,2020,DOI:10.1177/0021998320908299.
70 Wang J, Xue Z M, Li Y C, et al. Polymer,2018,140,39.
71 Ma Y Q, Sun S W. China Coatings,2019,34(5),21(in Chinese).
马懿卿,孙思薇.中国涂料,2019,34(5),21.
72 Zhang J, Huang P. Materials Reports A:Review Papers,2009,23(7),58(in Chinese).
张竞,黄培.材料导报:综述篇,2009,23(7),58.
73 Peng Y J, He X, Wu Q, et al. Polymer,2018,149,154.
74 Kausar A. Polymer-Plastics Technology and Materials,2019,58(7),691.
75 Dong Q Z. Study on the synthesis and properties of bisphenol F and bisphenol F/A epoxy resin. Master’s Thesis, National University of Defense Technology, China,2002(in Chinese)
董奇志.双酚F型及双酚F/A型环氧树脂的合成与性能研究.硕士学位论文,国防科学技术大学,2002.
76 Hong X H, Hua Y Q. Polymer Materials Science and Engineering,2007,23(2),45(in Chinese).
洪旭辉,华幼卿.高分子材料科学与工程,2007,23(2),45.
77 Wei B, Zhou J T, Yao Z J, et al. Materials Reports A:Review Papers,2019,33(9),2976(in Chinese).
魏波,周金堂,姚正军,等.材料导报:综述篇,2019,33(9),2976.
78 Chang P S, Zuo R L, Wang R M, et al. Materials Review,2002,16(2),54(in Chinese).
常鹏善,左瑞霖,王汝敏,等.材料导报,2002,16(2),54.
79 Shen W, Wang X P, Jia D M. Thermosetting Resin,2010,25(3),49(in Chinese).
沈威,王小萍,贾德民.热固性树脂,2010,25(3),49.
80 Zhang X B, Liu H P. China Adhesives,2008,17(5),1(in Chinese).
张小博,刘海萍.中国胶黏剂,2008,17(5),1.
81 Luo K, Su L, Liu J H, et al. Thermosetting Resin,2005,20(1),5(in Chinese).
罗凯, 苏琳,刘俊华,等.热固性树脂,2005,20(1),5.
82 Lou C H, Liu X J. Composites Part B,2018,136,20.
83 Li S Y, Wang Y L, Liu Z Y, et al. Journal of the Chinese Ceramic Society,2019,47(11),1621(in Chinese).
李世宇,王玉龙,刘志勇,等.硅酸盐学报,2019,47(11),1621.
84 Liu S Z, Li J, Zeng B Z, et al. New Chemical Materials,2008,36(11),21(in Chinese).
刘守贵,李嘉,曾本忠,等.化工新型材料,2008,36(11),21.
85 Zou L, Zou L, Liu X F, et al. Thermosetting Resin,2014,29(3),62(in Chinese).
邹莉,邹林,刘小峯,等.热固性树脂,2014,29(3),62.
86 Ibrahim M, Al-Gahtani A S, Maslehuddin M, et al. Journal of Materials in Civil Engineering,1999,11(1),36.
87 Pan X Y, Shi Z G, Shi C J, et al. Construction and Building Materials,2017,132,578.
88 Pan X Y, Shi Z G, Shi C J, et al. Construction and Building Materials,2017,133,81.
89 Merah A, Khenfer M M, Korichi Y. Journal of Adhesion Science and Technology,2015,29(22),2446.
90 Cestari A R, Vieira E F S, Tavares A M G, et al. Journal of Colloid and Interface Science,2010,343(1),162.
91 Zhang J, Zhou L B, Gao P W, et al. Modern Tunnelling Technology,2018,55(4),210(in Chinese).
张骏,周立波,高培伟,等.现代隧道技术,2018,55(4),210.
92 Yan P Y, Yue L, Dai D, et al. Journal of the Chinese Ceramic Society,2017,45(5),608(in Chinese).
阎培渝,岳蕾,代丹,等.硅酸盐学报,2017,45(5),608.
93 Liu G, Attallah M M, Loretto M, et al. Ceramics Internatioal,2015,41(9),11534.
94 Pang B, Zhang Y S, Liu G J, et al. ACS Applied Materials and Interfaces,2018,10(25),21696.
95 Sinko J. Progress in Organic Coatings,2001,42(3-4),267.
96 Ramezanzadeh M, Bahlakeh G, Ramezanzadeh B, et al. Journal of Industrial and Engineering Chemistry,2019,72,474.
97 Cui G, Bi Z X, Wang S H, et al. Progress in Organic Coatings,2020,148,105821.
98 Shen W N, Feng L J, Liu X, et al. Progress in Organic Coatings,2016,90,139.
99 Qian S, Cheng Y F. Progress in Organic Coatings,2018,120,79.
100 Golabadi M, Aliofkhazraei M, Toorani M, et al. Progress in Organic Coatings,2017,105,258.
101 Shreepathi S. Progress in Organic Coatings,2016,90,438.
102 Mahdavian M, Naderi R, Peighambari M, et al. Journal of Industrial and Engineering Chemistry,2015,21,1167.
103 Anda L D, Courtier C, Moehle J P. ACI Structural Journal,2006,103(2),226.
104 Miller G G, Kepler J L, Darwin D. ACI Structural Journal,2003,100(3),314.
105 Nie R F, Huang Y J, Li X W, et al. Qcean Engineering,2020,208,107350.
106 Wang S, Hu Z R, Shi J, et al. Applied Surface Science,2019,484,759.
107 Nikravesh B, Ramezanzadeh B, Sarabi A A, et al. Corrosion Science,2011,53(4),1592.
108 Wang S, Hu Z R, Shi J, et al. Applied Surface Science,2019,484,759.
109 Cang H S, Wen Y L, Xie F, et al. China Coatings,2019,34(9),45(in Chinese).
苍会升,温义丽,谢飞,等.中国涂料,2019,34(9),45.
110 Zhong M Z, Zhang Y, Li X Q, et al. Surface and Coatings Technology,2018,347,191.
111 Karmouch R, Ross G G. Applied Surface Science,2010,257(3),665.
112 Ammar S, Ramesh K, Ma I A W, et al. Surface and Coatings Technology,2017,324,536.
113 Atta A M, Mohaned N H, Rostom M, et al. Progress in Organic Coa-tings,2019,128,99.
114 Dong C, Jiang C S, Liu Z Y, et al. China Concrete,2020(6),80(in Chinese).
董超,姜传胜,刘志勇,等.混凝土世界,2020(6),80.

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