Finite Element and Experimental Investigation on the Effect of ‎Repetitive Shock in Corrugated Cardboard Packaging

Publish Year: 1400
نوع سند: مقاله ژورنالی
زبان: English
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JR_JACM-7-2_038

تاریخ نمایه سازی: 9 خرداد 1400

Abstract:

The primary concern of the current study is estimating the repetitive shock induced damages leading to cumulative fatigue on corrugated cardboard boxes experimentally and numerically. Repetitive shock tests were performed on boxes using a vibration table to construct a Damage Boundary Curve (DBC). To computationally determine this curve, a finite element approach is proposed using an elastoplastic homogenization model for corrugated cardboard. The proposed model was implemented in the finite element software ABAQUS. Thanks to adopted model simplifications, a box can be easily and reliably modelled as a homogenized structure. A calibration method is used to compute a set of effective parameters in homogenized model in order to keep its behavior qualitatively and quantitatively close to the response of a full structural model. For verification, the identified model is used to simulate the box compression test. To replicate the experimental tests, simulations of successive repetitive shock pulses are carried with the proposed model for oligocyclique and limited endurance fatigue. To reduce computational costs, we propose a simple method for unlimited endurance fatigue by extrapolating a trend line after some training cycles. The proposed method shows good agreement with experimental results.

Authors

Viet Luong

MATIM, University of Reims Champagne-Ardenne, UFR SEN, Campus Moulin de la Housse, ۵۱۱۰۰ Reims, France

Anne-Sophie Bonnin

ESIReims, University of Reims Champagne-Ardenne, Esplanade Roland Garros, ۵۱۱۰۰ Reims, France

Fazilay Abbès

MATIM, University of Reims Champagne-Ardenne, UFR SEN, Campus Moulin de la Housse, ۵۱۱۰۰ Reims, France

Jean-Baptiste Nolot

ESIReims, University of Reims Champagne-Ardenne, Esplanade Roland Garros, ۵۱۱۰۰ Reims, France

Damien Erre

ESIReims, University of Reims Champagne-Ardenne, Esplanade Roland Garros, ۵۱۱۰۰ Reims, France

Boussad Abbès

MATIM, University of Reims Champagne-Ardenne, UFR SEN, Campus Moulin de la Housse, ۵۱۱۰۰ Reims, France

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  • Newton, R.E., Fragility Assessment Theory and Practice, Monterey Research Laboratory, ...
  • Burgess, G.J., Product fragility and damage boundary theory, Packaging Technolgy ...
  • Kipp, W.I., Developments in testing products for distribution, Packaging Technology ...
  • Kitazawa, H., Saito, K., Ishikawa, Y., Effect of difference in ...
  • Horiguchi, S., Saito, K., Test method for enhanced mechanical shock ...
  • Luong, V.D., Abbès, F., Abbès, B., Duong, P.T.M., Nolot, J.-B., ...
  • Li, H., Chen, A., Duan, N., Dropping Shock Characteristics of ...
  • Song, S., Duan, N.-N., Chen, A.-J., Application of variational iteration ...
  • Biancolini, M.E., Brutti, C., Numerical and experimental investigation of the ...
  • Biancolini, M.E., Brutti, C., Porziani, S., Corrugated board containers design ...
  • Han, J., Park, J.M., Finite element analysis of vent/hand hole ...
  • Fadiji, T., Coetzee, C., Opara, U.L., Compression strength of ventilated ...
  • Duong, P.T.M., Abbès, B., Li, Y.M., Hammou, A.D., Makhlouf, M., ...
  • Hammou, A.D., Duong, P.T.M., Abbès, B., Makhlouf, M., Guo, Y.-Q., ...
  • Abbès, B., Guo, Y.-Q., Analytic homogenization for torsion of orthotropic ...
  • Talbi, N., Batti, A., Ayad, R., Guo, Y.-Q., An analytical ...
  • Nordstrand, T., Carlsson, L.A., Allen, H.G., Transverse shear stiffness of ...
  • Garbowski, T., Marek, A., Homogenization of corrugated boards through inverse ...
  • Rabczuk, T., Kim, J. Y., Samaniego, E., Belytschko, T., Homogenization ...
  • Anitescu, C., Atroshchenko, E., Alajlan, N., Rabczuk, T., Artificial Neural ...
  • Hill, R., A theory of the yielding and plastic flow ...
  • Hoffman, O., The brittle strength of orthotropic materials, Journal of ...
  • Tsai, S.W., Wu, E.M., A general theory of strength for ...
  • Xia, Q.S., Boyce, M.C., Parks, D.M., A constitutive model for ...
  • Mäkelä, P., Östlund, S., Orthotropic elastic-plastic material model for paper ...
  • Harrysson, A., Ristinmaa, M., Large strain elasto-plastic model of paper ...
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