Full-field measurements in the edge crush test of a corrugated board—analytical and numerical predictive models
Full-field measurements in the edge crush test of a corrugated board—analytical and numerical predictive models
This article focuses on the derivation of simplified predictive models for the identification of the overall compressive stiffness and strength of corrugated cardboards. As a representative example an unsymmetrical 5-ply sample (with E and B flute) was used in this study. In order to exclude unreliable displacement measurement in the standard edge crush test, virtual strain gauges were used. Video extensometry was employed to collect measurements from the outer surfaces of the sample on both sides. Additional data allowed real force-displacement curves to be obtained, which were used in the validation procedure. To emulate the experimental results, besides a simple analytical model, a 3D numerical model fully reflecting the geometry of the corrugated board, based on the finite elements method was also built. In both cases good agreement between the experimental results and the analytical and numerical calculations was observed. This proved that the proposed analytical model can be successfully used to determine the overall stiffness and compressive strength of corrugated board, provided that the geometry and properties of all the layers of the board are known. The simple model presented in this work enables quick and reliable design and prototyping of new assemblies without the need to manufacture them.
2840
Marek, Alex
7cfb1c40-2e95-4e2b-81e5-c515674bece6
Garbowski, Tomasz
f9577a1b-da4c-4b4b-8f29-f73585db81a8
Grabski, Jakub
a96c1db9-53ce-40da-82b5-231794c59ed7
26 May 2021
Marek, Alex
7cfb1c40-2e95-4e2b-81e5-c515674bece6
Garbowski, Tomasz
f9577a1b-da4c-4b4b-8f29-f73585db81a8
Grabski, Jakub
a96c1db9-53ce-40da-82b5-231794c59ed7
Marek, Alex, Garbowski, Tomasz and Grabski, Jakub
(2021)
Full-field measurements in the edge crush test of a corrugated board—analytical and numerical predictive models.
Materials, 14 (11), .
(doi:10.3390/ma14112840).
Abstract
This article focuses on the derivation of simplified predictive models for the identification of the overall compressive stiffness and strength of corrugated cardboards. As a representative example an unsymmetrical 5-ply sample (with E and B flute) was used in this study. In order to exclude unreliable displacement measurement in the standard edge crush test, virtual strain gauges were used. Video extensometry was employed to collect measurements from the outer surfaces of the sample on both sides. Additional data allowed real force-displacement curves to be obtained, which were used in the validation procedure. To emulate the experimental results, besides a simple analytical model, a 3D numerical model fully reflecting the geometry of the corrugated board, based on the finite elements method was also built. In both cases good agreement between the experimental results and the analytical and numerical calculations was observed. This proved that the proposed analytical model can be successfully used to determine the overall stiffness and compressive strength of corrugated board, provided that the geometry and properties of all the layers of the board are known. The simple model presented in this work enables quick and reliable design and prototyping of new assemblies without the need to manufacture them.
Text
materials-14-02840
- Version of Record
More information
Accepted/In Press date: 21 May 2021
Published date: 26 May 2021
Identifiers
Local EPrints ID: 455964
URI: http://eprints.soton.ac.uk/id/eprint/455964
PURE UUID: 3e51c661-3ffd-4e7f-95e6-47003aa7d554
Catalogue record
Date deposited: 11 Apr 2022 16:40
Last modified: 17 Mar 2024 03:55
Export record
Altmetrics
Contributors
Author:
Tomasz Garbowski
Author:
Jakub Grabski
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
