Journal of Adhesion and Interface (접착 및 계면)
- Volume 3 Issue 4
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- Pages.44-52
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- 2002
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- 1229-9243(pISSN)
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- 2233-8217(eISSN)
Interfacial Phenomena of Lignocellulose Fiber/Thermoplastic Polymer Composites
리그노셀룰로오스 섬유/열가소성 고분자 복합재의 계면 현상
- Son, Jungil (Advanced Engineered Wood Composites Center, Univ. of Maine) ;
- Yang, Han-Seung ;
- Kim, Hyun-Joong
- 손정일 ;
- 양한승 (서울대학교 농업생명과학대학 생물자원공학부 바이오복합재료 및 접착과학 연구실) ;
- 김현중 (서울대학교 농업생명과학대학 생물자원공학부 바이오복합재료 및 접착과학 연구실)
- Received : 2002.09.04
- Published : 2002.12.23
Abstract
Composite materials are created by combining two or more component to achieve desired properties which could not be obtained with the separate components. The use of reinforcing fillers, which can reduce material costs and improve certain properties, is increasing in thermoplastic polymer composites. Currently, various inorganic fillers such as talc, mica, clay, glass fiber and calcium carbonate are being incorporated into thermoplastic composites. Nevertheless, lignocellulose fibers have drawn attention due to their abundant availability, low cost and renewable nature. In recent, interest has grown in composites made from lignocellulose fiber in thermoplastic polymer matrices, particularly for low cost/high volume applications. In addition to high specific properties, lignocellulose fibers offer a number of benefits for lignocellulose fiber/thermoplastic polymer composites. These include low hardness, which minimize abrasion of the equipment during processing, relatively low density, biodegradability, and low cost on a unit-volume basis. In spite of the advantage mentioned above, the use of lignocellulose fibers in thermoplastic polymer composites has been plagued by difficulties in obtaining good dispersion and strong interfacial adhesion because lignocellulose fiber is hydrophilic and thermoplastic polymer is hydrophobic. The application of lignocellulose fibers as reinforcements in composite materials requires, just as for glass-fiber reinforced composites, a strong adhesion between the fiber and the matrix regardless of whether a traditional polymer matrix, a biodegradable polymer matrix or cement is used. Further this article gives a survey about physical and chemical treatment methods which improve the fiber matrix adhesion, their results and effects on the physical properties of composites. Coupling agents in lignocellulose fiber and polymer composites play a very important role in improving the compatibility and adhesion between polar lignocellulose fiber and non-polar polymeric matrices. In this article, we also review various kinds of coupling agent and interfacial mechanism or phenomena between lignocellulose fiber and thermoplastic polymer.
Keywords
- COMPOSITES;
- REINFORCING FILLER;
- LIGNOCELLULOSE FIBER;
- INTERFACIAL ADHESION;
- COUPLING AGENTS;
- THERMOPLASTIC POLYMER