Simplified Performance Evaluation Methods for Cushioning Materials

Chen Zhong; Katsuhiko Saito

doi:10.4028/www.scientific.net/AMM.200.136

Paper Titles

Study on the Failure Mode of Corrugated Paperboard during Transport and Distribution
p.118

Some Observations on Dynamical Cushioning Property of Overlay Cushion Combined with Dissimilar Materials
p.122

Static Edgewise Crush Property and Mechanical Model of Apposition Combined C-Flute Corrugated Paperboard
p.126

A New-Type Packaging Protection Model of Moulded Pulp on Electron Gun
p.131

Simplified Performance Evaluation Methods for Cushioning Materials
p.136

Design for Transport Packaging of the Small Test Equipment
p.143

Study on Dynamic Characteristics of the Position Apparatus Based on ANSYS/WORKBENCH
p.147

Research on the Humanized Design of Logistics Packaging in Supply Chain
p.151

Energy Absorption Properties of Paper-Based Packaging Materials as Response to Various Ambient Humidities
p.155

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 200Simplified Performance Evaluation Methods for...

Simplified Performance Evaluation Methods for Cushioning Materials

Abstract:

To evaluate quantitatively the performance of cushioning materials, a cushion curve is indispensable. However, the desired cushioning effect may sometimes be absent when we use the cushion curve to design a transport package. In addition, to plot the cushion curve, massive dynamic compression tests are traditionally necessary. Thus, large amounts of labor and material resources are required. Therefore, we used expanded polyethylene and laminated-board cushion as test materials to represent typical cushioning materials, and proposed simplified performance evaluation methods based on certain dynamic compression tests. An analysis of the experimental results showed that to obtain a more accurate packaging design, the shearing effect must be taken into account when using the cushion curve; For both plastic and paper cushions, new proposed performance evaluation methods significantly reduce the number of dynamic compression tests needed to accurately evaluate an actual packaging design.