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http://dx.doi.org/10.17702/jai.2020.21.4.135

Adhesive Properties of Starch-Derived Maltose-Acryl Copolymer  

Park, Sung Il (Department of Chemical Engineering, Dongguk University)
Lee, Myung Cheon (Department of Chemical Engineering, Dongguk University)
Publication Information
Journal of Adhesion and Interface / v.21, no.4, 2020 , pp. 135-142 More about this Journal
Abstract
Recently, people's interest in eco-friendly plastics derived from nature to replace petroleum-based plastics is increasing due to environmental problems such as microplastics. In line with this trend, eco-friendly adhesives using natural materials and processes are also being developed in the adhesive field. Among them, maltose is a natural substance derived from starch and is the main component of starch syrup used as a food additive. Due to its lower molecular weight than starch, it is easily soluble in water, and above all, there is a possibility that it can be copolymerized with other monomers through solution polymerization. However, researches related to the application of maltose to adhesives are very rare. In this study, after modifying maltose using acrylic anhydride, the product was analyzed through FT-IR and H-NMR. And the modified maltose was copolymerized with two kinds of acrylic monomers. The synthesized adhesive was applied on the wood and the adhesive performance were investigated.
Keywords
maltose; acryl; adhesive; natural; wood;
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  • Reference
1 E. T. Jeoung, H. R. Lee, S. J. Lee, C. Y. Lim, J. D. Seo, M. S. Kim and J. K. kim, Journal of KWJS, 31, 71- 76 (2013).
2 W. Li, Bouzidi and S. S. Narine, Ind. Eng. Chem. Res., 47, 7524-7532 (2008).   DOI
3 D. N. Lewis, G. Schutte, H. Westerhof, J. Janssen and W. E. Ketty, US patent, 7465770 (2008).
4 Z. Zhang, D. J. Macquarrie, J. H Clark and A. S Matharu, The Royal of Society of Chemistry, 4, 41947-41955 (2014).
5 J. K. Oh, D. H. Lim, S. Y. Kim and H. J. Kim, Journal of Adhesion and Interface, 9, 34-42 (2008).
6 Y. Kawamura, Y. MAtsumura, T. Matoba, D. Yonezawa and M. Kito, Cereal Chem., 62. 279 (1985).
7 C. N. Cone and E. D. Brown, US patent, 1955375, (1934).
8 A. Pizzi, Holz and ROh- und Werkstoff, 52, 229 (1994).   DOI
9 K. S. Kim, O. H. Lie and S. Y. Lee, Korea Soybean Digest, 16, 14 (1999).
10 H. S. Joo, Y. J. Park and H. J. Kim, Journal of Adhesion and Interface, 5, 24-33 (2004).
11 Y. Xu, V. Miladinov and M. A. Hana, Cereal Chem, 81, 735-740 (2004).   DOI
12 Kennedy, H. D., American Chemical Society, 385, 326-336 (1989).
13 Wang, Z. J., Gu, Z. B., Hong, Y., Cheng, L. and Li, Z. F. Carbohydrate Polymers, 86, 72-76 (2011).   DOI
14 Wang, Z. J., Li, Z. F., Gu, Z. B., Hong, Y., and Cheng, L., Carbohydrate Polymers, 88, 699-706 (2012).   DOI
15 Li, Z., Wang, J., Cheng, L. Gu, Z., Hong, Y. and Kowalczyk, A., Carbohydrate Polymers, 99, 579-583 (2014).   DOI
16 X. Zheng, L. Cheng, Z. Gu, Y. Hong, Z. Li and C. Li, Int. J. Biol. Macromol, 96, 11-18 (2017).   DOI
17 Y. Gu, L. Cheng, Z. Gu, Y. Hong, Z. Li and C. Li, Int. J. Biol. Macromol, 134, 247-254 (2019).   DOI
18 J. H. Hwang, H. Ryu and U. R. Cho, Elastomer, 43, 221-229 (2008).
19 T. Satob, JSAE Review, 17-2, 165-178 (1996).   DOI
20 D. Y. Choi and Y. G. Kim, Journal of KWJS, 27-3, 125-130 (2009).
21 S. H. Song, Y. S. Kim, U. R. Cho, Elastomer, 44, 429-435 (2009).
22 S. Koytepe, M. G. Karaaslan, S. Balcioglu, S. Gulgen, B. Ates, Int J. Adhesion and Adhesives, 49, 90-96, (2014)   DOI
23 B. Neises and W. Steglich, Angew. Chem. Int. Ed., 17, 522-524 (1978).   DOI
24 H. Handoko, 2014, Bio-based thermosetting copolymers of eugenol and tung oil, Master of Science, Iowa State Univ., U.S.
25 KS, 2003, 접착제-목재.목재 접착 접합-인장 하중에서의 전단 강도 측정, KS M ISO 6237, 산업통상자원부 국가기술표준원.
26 이명천 외 5인, 고분자공학개론, 자유아카데미, pp. 66-67 (2015)
27 S. I. Park, J. H. Lee and M. C. Lee, Journal of Adhesion and Interface, 20, 102-109 (2019).
28 KS, 2002, 플라스틱-액상, 현탁상, 또는 분산상의 수지-브룩필드법에 의한 겉보기 점도 측정, KS MISO 2555, 산업통상자원부 국가기술표준원.
29 Y. Xu, V. Miladinov and M. A, Hanna, American Association of Cereal Chemists, 81, 735-740 (2004).
30 J. Xu, and Y. C, Shi, Carbohydrate Polymers, 220, 118-125 (2019).   DOI
31 B. T. Poh and I. Khan, Materials and Design, 32, 2513-2519 (2011).   DOI