An experimental and computational study of laminated paperboard creasing and folding

International Journal of Solids and Structures

Volumn 46, Issue 24, 2009, Pages 4192-4207

  Beex, L A A ^a   Peerlings, R H J ^a  

^a EINDHOVEN UNIVERSITY OF TECHNOLOGY   (Netherlands)

Author keywords

Creasing; Delamination; Experimental mechanics; Finite element method; Folding; Numerical simulation; Paperboard; Plasticity

Indexed keywords

BENDING STIFFNESS; COMPUTATIONAL STUDIES; CONVERTING PROCESS; CREASING; EXPERIMENTAL DATA; EXPERIMENTAL MECHANICS; EXPERIMENTAL OBSERVATION; FOLDING; GRAMMAGE; MECHANICAL MODEL; MULTIPLE DELAMINATIONS; NUMERICAL SIMULATION; PLASTIC BEHAVIOR; STRAIN FIELDS;

DELAMINATION; LAMINATING; MECHANICS; MECHANISMS; PACKAGING MATERIALS; PAPERBOARDS; PLASTICITY; SIMULATORS; STEEL SHEET; STRESS ANALYSIS;

FINITE ELEMENT METHOD;

EID: 70349753176     PISSN: 00207683     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijsolstr.2009.08.012     Document Type: Article

References (23)

1. Barbier C., Larsson P.L., and Östlund S. On dynamic effects at folding of coated papers. Composite Structures 67 (2004) 395-402
2. Beldie, L., 2001. Mechanics of paperboard packages - performance at short term static loading, Licentiate Dissertation. Lund University, Lund, Sweden.
3. Beex, L.A.A., 2008. Experimental and computational study of laminated paperboard creasing and folding. Master's thesis. Eindhoven University of Technology, Eindhoven, The Netherlands.
4. Castro J., and Ostoja-Starzewski M. Elasto-plasticity of paper. International Journal of Plasticity 19 (2003) 2093-2098
5. Chandra N., Li H., Shet C., and Ghonem H. Some issues in the application of cohesive zone models for metal-ceramic interfaces. International Journal of Solids and Structures 39 (2002) 2827-2855
6. Choi, D.D., Lavrykov, S.A., Ramarao, B.V., 2007. Simulation studies of delamination effects in the scoring and folding of paperboard. In: Proceedings: 61st Appita Annual Conference and Exhibition, Gold Coast, Australia, 6-9 April 2006. Carlton, Vic., Appita Inc., pp. 209-216.
7. Hill R. Mathematical Theory of Plasticity (1950), Cardon Press, Oxford, United Kingdom
8. Isaksson P., Hägglund R., and Gradin P. Continuum damage mechanics applied to paper. International Journal of Solids and Structures 41 (2004) 4731-4755
9. Isaksson P., and Hägglund R. A mechanical model of damage and delamination of corrugated board during folding. Engineering Fracture Mechanics 72 (2005) 2299-2315
10. Karafillis A.P., and Boyce M.C. A general anisotropic yield criterion using bounds and a transformation weighting tensor. Journal of the Mechanics and Physics of Solids 41 (1993) 1859-1882
11. Mäkelä P., and Östlund S. Orthotropic elastic-plastic material model for paper materials. International Journal of Solids and Structures 40 (2003) 5599-5620
12. Nagasawa S., Fukuzawa Y., Yamaguchi T., Tsukatani S., and Katayami I. Effect of crease depth and crease deviation on folding deformation characteristics of coated paperboard. Journal of Materials Processing Technology 140 (2003) 157-162
13. Ortiz M., and Pandolfi A. Finite-deformation irreversible cohesive elements for three-dimensional crack-propagation analysis. International Journal of Numerical Methods in Engineering 44 (1999) 1267-1282
14. Ramberg, W., Osgood, W.R., 1943. Description of Stress-Strain Curves by Three Parameters, Technical Note No. 902, NACA (National Advisory Committee for Aeronautics).
15. Savolainen, A., 1998. Paper and Paperboard Converting, Finnish Paper Engineers' Association. Fapet Oy, Jyväskylä, Finland.
16. Sawyer J.P.G., Jones R., and MacKinlay P.R. A unified constitutive theory for paper. Composite Structures 42 (1998) 93-100
17. Stenberg N. A model for the through-thickness elastic-plastic material behaviour of paper. International Journal of Solids and Structures 40 (2003) 7483-7498
18. Thakkar B.K., Gooren L.G.J., Peerlings R.H.J., and Geers M.G.D. Experimental and numerical investigation of creasing in corrugated paperboard. Philosophical Magazine 88 (2008) 3299-3310
19. Van den Bosch M.J., Schreurs P.J.G., and Geers M.G.D. A cohesive zone model for with a large deformation formulation accounting for interfacial fibrilation. European Journal of Mechanics A/Solids 26 (2007) 1-19
20. Van Hal B.A.E., Peerlings R.H.J., Geers M.G.D., and Sluis van der O. Cohesive zone modeling for structural integrity analysis of IC interconnects. Microelectronics Reliability 47 (2007) 1251-1261
21. Xia Q.S., Boyce M.C., and Parks D.M. A constitutive model for the anisotropic elastic-plastic deformation of paper and paperboard. International Journal of Solids and Structures 39 (2002) 4053-4071
22. Xia, Q.S., 2002. Mechanics of inelastic deformation and delamination in paperboard, Ph.D. thesis. Massachusetts Institute of Technology, Massachusetts, United States of America.
23. Xu X.P., and Needleman A. Void nucleation by inclusion debonding in a crystal matrix. Modelling and Simulation in Materials Science and Engineering 1 (1993) 111-132