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Finite Element-based Simulation for Bending Behavior of Corrugated Package

첫 페이지 보기
  • 발행기관
    한국포장학회 바로가기
  • 간행물
    한국포장학회지 KCI 등재 바로가기
  • 통권
    Vol. 30 No. 3 (2024.12)바로가기
  • 페이지
    pp.215-224
  • 저자
    Jong-Min Park, Jong-Soon Kim, Jae-Min Sim, Hyun-Mo Jung
  • 언어
    영어(ENG)
  • URL
    https://www.earticle.net/Article/A459285

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원문정보

초록

영어
Corrugated boards are used for packaging because of their high strength-to-weight ratio, recyclability, and biodegradability. They have an orthotropic sandwich structure with unique characteristics for each direction owing to their flute shape. In this study, the bending behavior was qualitatively analyzed for various variables through an FE-based simulation, and the possibility of an alternative test method for the four-point bending test (FPBT) on a corrugated board was examined through a similarity analysis with the experimental results. The cross-machine direction (CD) bending stiffness through finite element (FE)-based simulation was closely related to the overall thickness of the corrugated board. In ABflute- double-wall (AB/F-DW), the difference in CD bending stiffness based on the bending direction was approximately 17.2% in the finite element analysis (FEA) simulation and approximately 11.7% in the experiment. However, the differences in the bending behavior (bending force vs. deflection plot) and bending stiffness based on the phase shift between the two flutes constituting BB-flute-double-wall (BB/F-DW) were insignificant. Overall, the CD bending behavior of the target corrugated boards was simulated relatively well through FEA simulation. However, FE-based simulation for the MD bending behavior was not possible due to variability in contact conditions due to non-uniformity in the MD cross-section of the FE-modeled test specimen. The bending behavior FE-based simulation technology of the target corrugated boards developed in a standard state (23oC-rh 50%) through this study will be extended to various environmental conditions and materials through follow-up studies and applied to simulation technology development for stacking durability analysis of multistacked corrugated packages.

목차

Abstract
Introduction
Experiment Design
1. Four-point Bending Test
2. FE modeling and Procedures
3. Material Properties
Results and Discussion
1. FE simulation for four-point bending behavior
2. Comparison with the experimental study
Summary and Conclusions
Acknowledgements
References

키워드

Corrugated package Corrugated board Finite element analysis Bending stiffness Four-point bending test FE-based simulation

저자

  • Jong-Min Park [ Dept. of Bio-industrial Machinery Engineering, Pusan National University ] Corresponding Author
  • Jong-Soon Kim [ Dept. of Bio-industrial Machinery Engineering, Pusan National University ]
  • Jae-Min Sim [ Dept. of Digital Agriculture, Digital Agriculture Dissemination Team, The Korea Agriculture Technology Promotion Agency (KOAT) ]
  • Hyun-Mo Jung [ Division of Smart Farm & Food, Kyongbuk Science University ]

참고문헌

자료제공 : 네이버학술정보

간행물 정보

발행기관

  • 발행기관명
    한국포장학회 [Korea Society Of Packaging Science & Technology]
  • 설립연도
    1994
  • 분야
    공학>기타공학
  • 소개
    포장기술의 학문적인 발전을 도모하고 국내포장산업의 기술수준 제고를 위하여 선진포장기술 유입의 창구역할을 함

간행물

  • 간행물명
    한국포장학회지 [Journal of Korea Society of Packaging Science & Technology]
  • 간기
    연3회
  • pISSN
    1226-0207
  • 수록기간
    1994~2026
  • 등재여부
    KCI 등재
  • 십진분류
    KDC 530 DDC 620

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