Optimum Design of Packaging Container for Bulk Materials(I)-Algorithm Development

벌크화물용 포장용기의 최적 설계(I)-알고리즘 개발

  • Park, Jong-Min (Dept. of Mechanical Engineering, Miryang National University) ;
  • Kwon, Soon-Goo (Dept. of Mechanical Engineering, Miryang National University)
  • Published : 2000.03.30

Abstract

In optimum design of packaging container for bulk materials, minimum board area, compression performance and distribution efficiency must be considered. In this study, mathematical models for minimum board area (RMA), compression strength (CS) and maximum compression strength per unit board area (MCSA) of container as algorithm for optimum design of packaging conatiner for bulk materials were developed as follows : RMA=f(V,D), ${\alpha}_{RMA}=f(V,D)$, MCSA=f(V,D), and ${\alpha}_{MCSA}=f(V,D)$. In order to develop these models, compression test according to various dimensions of container and response surface analysis for minimum board area, compression strength, and maximum compression strength per unit board area of container were carried out. In developed models, volume and depth of container were principal independent variables. Through the verified results for these models, optimum design of packaging container on the design conditions and limit conditions was possible. These models might be used in developing optimum design software of packaging container for bulk materials.

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