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http://dx.doi.org/10.7473/EC.2011.46.2.112

Organic-Inorganic Hybrid Materials Technology for Gas Barrier  

Kim, Ki-Seok (Department of Chemistry, Inha University)
Pa가, Soo-Jin (Department of Chemistry, Inha University)
Publication Information
Elastomers and Composites / v.46, no.2, 2011 , pp. 112-117 More about this Journal
Abstract
Recently, high growth potential of barrier materials industry including high performance packing materials was expected with increasing the national income and well-being culture. As high barrier materials, polymer nanocomposites have considerable attractions due to their excellent physical properties compared to conventional composite materials. In general, polymer nanocomposites were consisted of polymer matrix and inorganic fillers, such as layered silicate, carbon nanotubes, and metal- or inorganic nanoparticles. Among these materials, layered silicate which was called as the clay was usually used as nano-fillers because of naturally abundant and most economical and structural properties. Clay-reinforced polymer nanocomposites have various advantages, such as high strength, flammability, gas barrier property, abrasion resistance, and low shrinkage and used for automotive and packing materials. Therefore, in this paper, we focused on the need of gas barrier materials and materials-related technologies.
Keywords
Packing; layered silicate; polymer nanocomposites; barrier materials;
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1 E. Picard, E. Espuche, and R. Fulchiron, "Effect of an organo- modified montmorillonite on PLA crystallization and gas barrier properties", Appl. Clay Sci., 53, 58 (2011).   DOI   ScienceOn
2 S. J. Park and J. S. Jin, "Effect of corona discharge treatment on the dyeability of low-density polyethylene film", J. Colloid Interface Sci., 236, 155 (2001).   DOI   ScienceOn
3 F. Tihminlioglu, I. Atik, and B. Ozen, "Water vapor and oxygen-barrier performance of corn-zein coated polypropylene films", J. Food Eng., 96, 342 (2010).   DOI   ScienceOn
4 T. Cecchi, P. Passamonti, and P. Cecchi, "Study of the quality of extra virgin olive oil stored in PET bottles with or without an oxygen scavenger", Food Chem., 120, 730 (2010).   DOI   ScienceOn
5 S. J. Park, D. I. Seo, and J. R. Lee, "Surface modification of montmorillonite on surface acid?base characteristics of clay and thermal stability of epoxy/clay nanocomposites", J. Colloid Interface Sci., 251, 160 (2002).   DOI   ScienceOn
6 F. L. Jin, K. Y. Rhee, and S. J. Park, "Surface treatment of montmorillonite on the thermal stabilities of bisphenol-A diglycidyl dimethacrylate nanocomposites", Mater. Sci. Eng. A, 435, 429 (2006).
7 S. Cimmino, D. Duraccio, C. Silvestre, and M. Pezzuto, "Isotactic polypropylene modified with clay and hydrocarbon resins: compatibility, structure and morphology in dependence on crystallization conditions", Appl. Surf. Sci., 256, 40 (2009).   DOI   ScienceOn
8 D. D. J. Rousseaux, N. Sallem-Idrissi, A. C. Baudouin, J. Devaux, P. Godard, J. Marchand-Brynaert, and M. Sclavons, "Water-assisted extrusion of polypropylene/clay nanocomposites: A comprehensive study?", Polymer, 52, 443 (2011).   DOI   ScienceOn
9 이준우, 박창걸, 박영서, "High functional packing materials", 한국과학기술정보연구원 (2003).
10 D. D. J. Rousseaux, M. Sclavons, P. Godard, and J. Marchand- Brynaert, "Carboxylate clays: A model study for polypropylene/clay nanocomposites", Polym. Degrad. Stab., 95, 1194 (2010).   DOI   ScienceOn
11 W. S. Jang, I. Rawson, and J. C. Grunlan, "Layer-by-layer assembly of thin film oxygen barrier". Thin Solid Films, 516, 4819 (2008).   DOI   ScienceOn
12 김기수, PET 보틀 성형가공과 가스 배리어화의 최근 기술 동향, 한국과학기술정보연구원 (2004).
13 Z. Ke, B. Yongping. "Improve the gas barrier property of PET film with montmorillonite by in situ interlayer polymerization", Mater. Lett., 59, 3348 (2005).   DOI   ScienceOn
14 Y. Liang, W. Cao, Z. Lia, Y. Wang, Y. Wu, and L. Zhang, "A new strategy to improve the gas barrier property of isobutylene- isoprene rubber/clay nanocomposites", Polym. Testing, 27, 270 (2008).   DOI   ScienceOn
15 P. B. Messersmith and E. P. Giannelis, "Synthesis and barrier properties of poly($\varepsilon$-caprolactone) layered silicate nanocomposites", J. Polym. Sci., Part A: Polym. Chem., 33, 1047 (1995).
16 H. M. C. de Azeredo, "Nanocomposites for food packaging applications", Food Res. Int., 42, 1240 (2009).   DOI   ScienceOn
17 M. G. Carneiro-da-Cunha, M. A. Cerqueira, B. W. S. Souza, S. Carvalho, M. A. C. Quintas, J.e A. Teixeira, and A. A. Vicente, "Physical and thermal properties of a chitosan/alginate nanolayered PET film", Carbohydrate Polym., 82, 153 (2010).   DOI   ScienceOn
18 R. Shogren, "Water vapor permeability of biodegradable polymers". J, Environ, Polym. Degrad., 5, 1997 (1997).
19 D. Majumdar, T. N. Blanton, and D. W. Schwark, "Clay-polymer nanocomposite coatings for imaging application", Appl. Clay Sci. 23, 265 (2003).   DOI   ScienceOn