Design & Manufacturing

Korean Society of Die & Mold Engineering (한국금형공학회)
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A study of Improvement of Stiffness for Plastic PET bottle with Different Geometries and Numbers of Rib

리브 형상 및 개수에 따른 사각플라스틱 페트병의 강성보강에 관한 연구

  • Young-Hoon Lee (Mold Forming Research Section, Kore Institute of Industrial Technology) ;
  • Bum-Jin Park (Mold Forming Research Section, Kore Institute of Industrial Technology) ;
  • Eui-Chul Jung (Mold Forming Research Section, Kore Institute of Industrial Technology) ;
  • Jung-Gil Oh (DongA Prec. Co. Ltd) ;
  • Seok-Guwan Hong (Mold Forming Research Section, Kore Institute of Industrial Technology)
  • 이영훈 (한국생산기술연구원 금형성형부문) ;
  • 박범진 (한국생산기술연구원 금형성형부문) ;
  • 정의철 (한국생산기술연구원 금형성형부문) ;
  • 오정길 ((주)동아정밀 공업) ;
  • 홍석관 (한국생산기술연구원 금형성형부문)
  • Received : 2023.12.16
  • Accepted : 2023.12.31
  • Published : 2023.12.31
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Abstract

Excessive use of plastic bottles contributes to a significant environmental issue due to the high volume of plastic waste generated. To address this, efforts are needed to reduce the weight of plastic bottles. However, indiscriminate weight reduction may compromise the essential rigidity required for plastic bottles. Extensive research on rib shape for pressure vessels are exists, but there is a few research of rib shapes to enhance the stiffness of plastic bottles. The following results were obtained from the analyses conducted in this study. 1) Among the rib cross-sections of square, trapezoid, and triangle, the buckling critical load of PET bottles with square-shaped ribs is improved by about 14% compared to the buckling critical load of PET bottles without ribs. 2) The buckling critical load is improved by about 18% when a square-shaped rib with an aspect ratio of 0.2 is applied, compared to the buckling critical load of the bottle without the rib. 3) When longitudinal and transverse square ribs were applied to the axial direction of the PET bottle, the buckling critical load was improved by about 32% and 58% compared to the buckling critical load of the PET bottle without ribs, respectively, indicating that applying longitudinal ribs is effective in reinforcing the stiffness of PET bottles. 4) When 14 transverse ribs were applied, the maximum improvement was about 48% compared to the buckling critical load of the plastic bottle without ribs. 5) When 3 longitudinal ribs were applied on each side, the maximum improvement was about 76% compared to the buckling critical load of the bottle without ribs. Therefore, it was concluded that for effective stiffness reinforcement of a 500ml square bottle with a thickness of 0.5mm, 3 square-shaped ribs with an aspect ratio of 0.2 should be applied in the longitudinal direction relative to the axial direction of the bottle.

Keywords

Acknowledgement

본 연구는 2023년도 산업통상자원부 우수기업연구소 육성사업(ATC+) 연구비 지원에 의해 수행되었습니다

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