1 |
ANSYS Inc. 1998. ANSYS theory reference. Release 5.5.
|
2 |
Patel, P., T. Nordstrand and L. A. Carlesson. 1997. Lacal buckling and collapse of corrugated board under biaxial stress. Composite Structure. 39(1-2):93-110.
DOI
ScienceOn
|
3 |
임연웅. 1994. 디자인 인간공학. 미진사. p171-206.
|
4 |
Jones, R. H. 1975. Mechanics of composite materials. Hemisphere Publication Corporation, New York, NY, USA.
|
5 |
Pilkey, W. D. 1994. Stress, strain and structure matrices. John Wiley & Sons, Inc.
|
6 |
Park, J. M. and M. H. Lee. 1999. Experimental investigation for flexural stiffness of paperboard-stacked structure. Journal of Korea Society of Packaging Science & Technology. 5(2):17-23. (In Korean)
과학기술학회마을
|
7 |
DieMex Y. 1997, 1998. 段ボ一ル原典ツり一ズ. CARTON BOX: 第0回-第10回.
|
8 |
Timoshenko, S. and J. Goodier. 1970. Theory of elasticity, 3rd ed., McGraw-Hill, New York.
|
9 |
Hahn, K. A. 1991. Study of the compressive bahaviour of corrugated board panels. Lund Institute of Technology, Lund, Sweden.
|
10 |
박종민. 2000. 저온 창고용 통기성 골판지 상자의 설계. 산업자원부.한국포장개발연구원 보고서.
|
11 |
Park, J. M. and M. H. Lee. 1999. Theoretical and finite element analysis for structural strength of paperboard-stacked structure. Journal of Korea Society of Packaging Science & Technology. 5(1):13-20.(In Korean)
과학기술학회마을
|
12 |
ASTM D642. Standard method for determining compressive resistance of shipping containers, components, and unit loads.
|
13 |
Park, J. M. 2000. Mechanical characteristics of paperboard-stacked structural with anisotropy. Journal of Industrial Science & Technology. Vol.10:113-119.(In Korean)
|