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http://dx.doi.org/10.12925/jkocs.2021.38.6.1533

The Development and Trend of Eco-Friendly Water-Dispersible Polyurethane Field.  

Lee, Joo-Youb (Department of fire and Disaster Prevention, Jungwon University)
Publication Information
Journal of the Korean Applied Science and Technology / v.38, no.6, 2021 , pp. 1533-1542 More about this Journal
Abstract
Eco-friendly polyurethane can be defined as a highly utilized material used in various fields. The various structural properties of the synthesis of isocyanates and polyols provide versatility and customization for use in the manufacturing field. The characteristics of polyurethane vary widely from soft touch coatings to hard building materials like rocks. These mechanical, chemical and biological properties and ease of alignment are drawing tremendous attention not only in the field of research but also in related industries. In order to improve the performance of water-dispersible polyurethane materials, it can be derived through processes such as adjusting the blending of raw materials and adding additives and nanomaterials. This study highlights the basic chemical structure of eco-friendly water-dispersible polyurethane in the fields of medical science, automobiles, coatings, adhesives, paints, textiles, marine industries, wood composite materials, and clothing.
Keywords
Water Dispersion; Polyurethane Structure; Isocyanate Applications; Coatings; Adhesives;
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1 Y. K. Yang, T. S. Hwang, E. H. Hwang, "Preparation of Urethane Nanocomposites with inorganic Nono Fillers and Their Physical properties" Polymer(Korea). Vol.30, No.29, (2006).
2 A. R. Marrion (Ed.), "The Chemistry and Physics of Coatings" Royal Society of Chemistry Paperbacks. 1 (1994).
3 J. Y. Lee, and K. J. Kim, "Study on Mechanical Properties of Waterborne Polyurethane-Acrylic Hybrid Resin for Leather Coatings", Journal of Korean oil chemist's, Vol.27, pp.188, (2010).
4 T.Calvo-Correas, L Ugarte, P. J. Tatowska, R. Sanzberro, "Thermoplastic polyurethanes with glycolysate intermediates from polyurethane waste recycling". Polymer Degradation and Stability, Vol.144, pp.411-419, (2017)   DOI
5 M. B. Karimi, S. Hassanajili, "Short fiber/polyurethane composite membrane for gas separation", Journal of Membrane Science, Vol.543, pp 40-48, (2017).   DOI
6 C. P. Chai, Ma Y. f. G. p. Li, G. Zhen, S.Y Ma., Y. J. Luo, "The preparation of high solid content waterborne polyurethane by special physical blending", Progress in Organic Coatings, Vol.115, pp.79-85, (2017).   DOI
7 S. Saalah, L. C. Abdullah, M. M.n Aung, M. Z. Salleh, D. R. A. Biak, M. Basri, E. R. Jusoh, "Waterborne polyurethane dispersions synthesized from jatropha oil", Industrial Crops and Products, Vol.64, pp.194-200, (2015).   DOI
8 S. k. Gaddam, A. Palanisamy, "Anionic waterborne polyurethane-imide dispersions from cottonseed oil based ionic polyol", Industrial Crops and Products, Vol.96, pp.132-139, (2017).   DOI
9 L. Wang, Y. Zhu, J. Qu, "Preparation and assistant-film-forming performance of aqueous polyurethane dispersions", Progress in Organic Coatings, Vol.105, pp.9-17, (2017).   DOI
10 K. Wazarkar, M. Kathalewar, A. Sabnis, "Improvement in flame retardancy of polyurethane dispersions by newer reactive flame retardant", Progress in Organic Coatings, Vol.87, pp.75-82, (2015).   DOI
11 S. Hattori, N. Mikami, "Cavitation erosion resistance of stellite alloy weldoverlays", Wear, Vol. 267, 2009
12 V. Garcia-Pacios, V. Costa, M. Colera, J. M. Martin-Martinez, "Waterborne polyurethane dispersions obtained with polycarbonate of hexanediol intended for use as coatings", Progress in Organic Coatings, Vol.71, pp.136-146 (2011).   DOI
13 M. Tielemans, P. Roose, C. Ngo, R. Lazzaroni, P. Leclere, "Multiphase coatings from complex radiation curable polyurethane dispersions", Progress in Organic Coatings, Vol.75, pp.560-568, (2012).   DOI
14 H. Liang, S. Wang, C. Zhang, "Aqueous anionic polyurethane dispersions from castor oil", Industrial Crops and Products, Vol.122, pp.182-189, (2018).   DOI
15 M. Fuensanta, J. Jofre-RecheJose, M. Martin-Martinez, "Structure and adhesion properties before and after hydrolytic ageing of polyurethane urea adhesives made with mixtures of waterborne polyurethane dispersions", International Journal of Adhesion and Adhesives, Vol.85, pp.165-176, (2018).   DOI
16 G.L. Garcia, V. Lopez-Rios, A. Espinosa,J. Abenojar, F. Velasco, "A.Toro, Cavitationresistance of epoxy-based multilayercoatings: Surface damage and crackgrowth kinetics during the incubation stage", Wear, Vol. 316, 2014
17 W. Han, H. Chen, X. Li, T. Zhang, "Thermodynamic modeling of magnesium ammonium phosphate cement and stability of its hydration products", Cement and Concrete Research, Vol.138, Article. 106223, (2020).
18 D. Mercier-Bouchard, S. Benoit, A. Doyen, M. Britten, Y. Pouliot, "Process efficiency of casein separation from milk using polymeric spiral-wound microfiltration membranes", Journal of Dairy Science, Vol.100, pp.8838-8848, (2017).   DOI
19 Y. Lu, R. C. Larock, "Soybean oil-based, aqueous cationic polyurethane dispersions: Synthesis and properties", Progress in Organic Coatings, Vol.69, pp.31-37, (2010).   DOI
20 B. Liu, J. Cai, X. Huai, "Heat transfer with the growth and collapse of cavitation bubble between two parallel heated walls", International Journal of Heat and Mass Tranfer, Vol. 78, 2014
21 V. Garcia-Pacios, V. Costa , M. Colera, JM. Martin-Martinez. "Waterborne polyurethane dispersions obtained with polycarbonate of hexanediol intended for use as coatings". Progress of Organic Coating, Vol.71, pp.36-49, (2011).   DOI
22 H. Pandya, P. Mahanwar, "Fundamental insight into anionic aqueous polyurethane dispersions", Advanced Industrial and Engineering Polymer Research, Vol.3, pp.102-110, (2020).   DOI
23 Y. Luo, D. Xie, Y. Chena, T. Han, R. Chen, X. Sheng, Y. iMei, "Synergistic effect of ammonium polyphosphate and α-zirconium phosphate in flame-retardant poly(vinyl alcohol) aerogels", Polymer Degradation and Stability, Vol.170, Article. 109019, (2019).
24 L. Guo, S. Huang, J. Qu, "Synthesis and properties of high-functionality hydroxyl-terminated polyurethane dispersions", Progress in Organic Coatings, Vol.119, pp.214-220, (2018).   DOI
25 J.T. Chang, C.H. Yeh, J.L. He, K.C. Chen, "Cavitation erosion and corrosion behaviorof Ni-Al intermetallic coatings", Wear, Vol.255, (2003).
26 M. Fuensantaa, J. A. Jofre-Rechea, F. Rodriguez-Llansolab, V. Costab, J. I. Iglesiasb, J. M. Martin-Martinez, "Structural characterization of polyurethane ureas and waterborne polyurethane urea dispersions made with mixtures of polyester polyol and polycarbonate diol", Progress in Organic Coatings, Vol.112, pp.141-152, (2017).   DOI
27 X. Cui, T. Hiraoka, T. Honda, Y. Hsu, T. Asoh, H. Uyama, "Oligoether grafting on cellulose microfibers for dispersion in poly(propylene glycol) and fabrication of reinforced polyurethane composite", Composites Science and Technology, Online.30, Article.108595, (2020).
28 S. S. Lee, S. H. Lee, D. S. Lee, "Preparation and Properties of waterborne Polyurethane Based on Mixtures of Hybroxy-Terminated Polybutadien and Poly(propylene glycol)". Polymer(Korea), Vol.30, pp.152 (2006)
29 I.W. Cheong, H. C. Kong, J.S. Shin, J. H. Kim. "Kinetic aspects of chain extension reaction using water-soluble diamines in aqueous polyurethane dispersion". Journal of Dispersion Science Technology, Vol.23, pp.1-8, (2002).   DOI
30 Y. S. Kwak, S.W. Park, Y H. Lee, H. D. Kim. "Preparation and properties of waterborne polyurethanes for water-vapor-permeable coating materials". Journal of Application Polymer Science, Vol.89, pp.123-129, (2003).   DOI
31 R. Sadeghi, H. B. Kahaki, "Thermodynamics of aqueous solutions of poly ethylene glycol di-methyl ethers in the presence or absence of ammonium phosphate salts", Fluid Phase Equilibria, Vol.306, No.2, pp.219, (2011).   DOI
32 M. Dular, B. Bachert, B. Stoffel, B. Sirok, "Relationship between cavitation structures and cavitation damage", Wear, Vol. 257, (2004).
33 J. Ma, Q. Xu, D. Gao, J. Zhou, J. Zhang, "Blend composites of caprolactam-modified casein and waterborne polyurethane for film-forming binder: Miscibility, morphology and properties", Polymer Degradation and Stability, Vol.97, pp.1545-1552, ()2012).   DOI
34 L. Olle, G. Baquero, M. Sole, R. Cuadros, A. Bacardit "Application of highly carboxylate resins in aqueous emulsion for leather coating avoiding the use of isopropyl alcohol", Journal of Cleaner Production, Vol.129, pp.23-29, (2016).   DOI
35 J. Hu, J. Shan, D. Wen, X. Liu, J. Zhao, Z. Tong, "Flame retardant, mechanical properties and curing kinetics of DOPO-based epoxy resins", Polymer Degradation and Stability, Vol.109, pp. 218, (2014).   DOI
36 D. Saihi, I. Vroman, S. Giraud, S. Bourbigot, "Microencapsulation of ammonium phosphate with a polyurethane shell. Part II", Interfacial polymerizatin technique", Reactive and Functional Polymers, Vo.l66, No.10, pp. 1118, (2006).   DOI
37 Y. Wang, J. Ma, Q. Xu, J. Zhang, "Fabrication of antibacterial casein-based ZnO nanocomposite for flexible coatings", Materials & Design, Vol.113, pp.240-245, (2017).   DOI
38 W. R White, D. T. Durocher, "Recycling of Rigid Polyurethane Articles and Reformulation into a Variety of Polyurethane Applications" Journal of .cellular plastics, Vol.33, No.5, pp.477-86, (1997).   DOI
39 S. M. Cakic, I. S. Ristic, I. Krakovsky, D. T. Stojiljkovis, P. Belsky, L. Kollova. "Crystallizationand thermal properties in waterborne polyurethane elastomers: influence of mixed soft segment block". Material Chemist Physics, Vol.144, pp.31-40, (2014).   DOI
40 U. Dorn, S. Enders, "Heat of mixing and liquideliquid-equilibrium of water + polypropylene glycol (PPG) with different molecular weights and water + propylene glycol dimethyl ether", Fluid Phase Equilibria, Vol.424, pp.58-67, (2016).   DOI
41 M. Ocepek, J. Zabret, J. Kecelj, P. Venturini, J. Golob, "Monitoring of polyurethane dispersion after the synthesis, Mater". Technology. Vol.49, No.4, (2015).
42 A. Santamaria-Echart, I. Fernandes L. Ugarte, F. Barreiro, M. Corcuera, A. Eceiza, "Green nanocomposites from Salvia-based waterborne polyurethane-urea dispersions reinforced with nanocellulose", Progress in Organic Coatings, Vol.50, Article.105989, (2021).