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바이오 복합체 제작을 위한 농업 폐기물 섬유에 과열증기(Superheated Steam) 전처리 방법 적용 가능성에 관한 연구 KCI 등재

Study on Superheated Steam (SHS) Preprocessing Method Applicability to the Agricultural Waste of Natural Fibers for the Production of Bio-composi

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한국폐기물자원순환학회지 (Journal of Korea Society of Waste Management)
한국폐기물자원순환학회 (Korea Society Of Waste Management)
초록

This study focused on enhancing the mechanical properties and thermal stability of bio-composites with natural agricultural residues and improving the interfacial adhesion between polymer and biodegradable agricultural residual waste fibers. To achieve this purpose, we proposed superheated steam (SHS) treatment method as a novel pre-treatment of fiber for improved of compatibility in polymer matrix. The use of SHS-treatment was investigated as a method for improving interfacial adhesion between agricultural residual waste fibers and polymer and with the goal of enhancing mechanical properties. We selected wheat straw fibers for agricultural waste fibers to improve the surface modification. Wheat Straw Fibers (WSF) was treated with SHS in order to modify its characteristics for bio-composite applications. Treatment was conducted at temperatures 200oC and 230oC for each 1 h. SHS-treated WSF was evaluated for its chemical composition, thermal stability, morphology and crystallinity. Thermal stability of the fibers was investigated using thermogravimetric analysis and found that the degradation temperature of the fibers is increased after of the SHS treatment. In addition, SHS treatment contained in the WSF reduce the rate of hemicellulose components. The WSF is polar nature of lignocellulose due to the presence of hydroxyl and carboxyl groups in cellulose and hemicellulose causes it to be incompatible with non-polar thermoplastics. SHS-treatment was found to be able to remove hemicellulose, which is the most hydrophilic and most thermally unstable component in WSF, since it has the lowest thermal resistance. Removal of hemicellulose makes the fiber less hydrophilic and this will potentially increase the compatibility of treated WSF and polymers and improves the mechanical properties and water resistance of composites.

목차
I. 서 론
II. 실 험
III. 연구결과 및 고찰
IV. 결 론
References
저자
  • 이희성(국립환경과학원 자원순환연구과) | Hee-Sung Lee Corresponding author
  • 전태완(국립환경과학원 자원순환연구과) | Tae-Wan Jeon
  • 황동건(국립환경과학원 자원순환연구과) | Dong-Gun Hwang
  • 강영렬(국립환경과학원 자원순환연구과) | Young-Yeul Kang
  • 장미정(국립환경과학원 자원순환연구과) | Mi-Jeong Jang
  • 유혜영(국립환경과학원 자원순환연구과) | Hye-Young Yoo
  • 홍수연(국립환경과학원 자원순환연구과) | Soo-Youn Hong
  • 박선오(국립환경과학원 자원순환연구과) | Seon-Oh Park
  • 김태희(국립환경과학원 자원순환연구과) | Tae-Hee Kim
  • 신선경(국립환경과학원 자원순환연구과) | Sun-Kyoung Shin
  • 안도 요시토(일본큐슈공업대학교 에코타운실증연구센터) | Yoshito Andou