The innovation in this study is the complexation of Erianthus fibers (Erianthus arudinaceus) with compatibilizer inPP by extrusion, to produce a material with an improvement in mechanical properties. The aim is to provide a general-purpose material from biomass that does not compete with food as an alternate material from the petroleum base.Erianthus is a cellulose resource crop which is a source of bio fuel, is inedible, highly productive and promising energyresource, there has been little report on its use as a material. It also is a cellulose resource crop with a high productivityas a fiber reinforcement material with low environmental load. Development of Erianthus fiber reinforced polypropylene(PP) composite material was reviewed. Erianthus fiber was pulverized and the powder was sorted by sieve size, whichwas put through the process of complexation with polypropylene using a twin-screw extruder. The mechanicalcharacteristics of the obtained composite material were evaluated by conducting a tensile strength test and a bendingtest. As a result of using the classified fiber as the filler, it is found that the difference in the surface area of the fiberhas a great effect on the mechanical properties and the thermal decomposition properties. It is found to be sufficientlyfeasible to make Erianthus function as a polypropylene fiber reinforcement element by controlling the size of Erianthusfiber.

I. 서 론
 II. 재료 및 방법
  1. 시료
  2. ETF/PP 복합화(complexations)
  3. 분석
 III. 연구결과 및 고찰
  1. 섬유의 셀룰로오스 조성비
  2. 복합체의 기계적 특성 평가
 IV. 결 론
 References

• 이희성(국립환경과학원 자원순환연구과) | Hee-Sung Lee Corresponding author
• 정미정(국립환경과학원 자원순환연구과) | Mi-Jeong Jeong
• 전태완(국립환경과학원 자원순환연구과) | Tae-Wan Jeon
• 김용준(국립환경과학원 자원순환연구과) | Tae-Wan Jeon
• 연진모(국립환경과학원 자원순환연구과) | Jin-Mo Yeon
• 조윤아(국립환경과학원 자원순환연구과) | Yoon-A Cho
• 조윤아(국립환경과학원 자원순환연구과) | Yoon-A Cho
• 조나현(국립환경과학원 자원순환연구과) | Na-Hyeon Cho
• 신선경(국립환경과학원 자원순환연구과) | Sun-Kyoung Shin
• 안도요시토(일본큐슈공업대학교 에코타운실증연구센터) | Yoshito Andou