Earticle

초록

영어

In optimum design of packaging contain er for bulk mat erials, minimum b oard ar ea, compres sion performance and distribution efficiency must be considered. In this study, math ematical models for minimum board area (RMA), compression strength(CS ) and maximum compres sion strength perunit board area (MCSA) of cont ainer as algorithm for optimum design packaging conatiner for bulk materials were developed as follows : RMA = f (V, D), a RMA = f ( V , D) , MCSA = f ( V ,D), and a M CSA = f (V, D). In order to develop these models, compres sion test according to various dimensions of cont ainer and response surface analysis for minimum board ar ea, compression strength, and maximum compres sion str ength per unit board area of cont ainer were carried out . In developed models, volume and depth of container were principal in dependent variables. Through the verified r esult s for these models, optimum design of packaging cont ainer 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 .

목차

Abstract
 서론
 수학적 모형화와 반응표면 분석
  최소소요면적에 대한 모형
  압축강도에 대한 모형
  단위 소요면적당 압축강도에 대한 모형
 결과 및 고찰
  치수비율에 따른 소요면적과 강도변화
  모형의 민감성과 적용
 결론
 기호설명
 문헌

키워드

저자

• 박종민 [ Jong-Min Park | 밀양대학교 기계공학과 ]

참고문헌

발행기관

간행물

표지보기 관심저널 등록

• 간행물명

  한국포장학회지 [Journal of Korea Society of Packaging Science & Technology]

• 간기

  연3회

• pISSN

  1226-0207

• 수록기간

  1994~2025

• 등재여부

  KCI 등재

• 십진분류

  KDC 530 DDC 620