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20130803 新增 11 条
1.
Accession number: 20133016523803
Title: Vertical static compression performance of honeycomb paperboard
Authors: Guo, Yanfeng1, 2 ; Becker, Wilfried2 ; Xi, Wencai3/郭彦峰
Author affiliation:
1 Dept. of Packaging Engineering, Xi'an University of Technology, Jinhua Nanlu 5, Xi'an 710048
Shaanxi Prov, China
2 Dept. of Mechanical Engineering. Darmstadt, Darmstadt University of Technology, Germany
3 Dept. of Packaging Engineering, Beijing Institute of Graphic Communication, Beijing, China
Corresponding author: Guo, Y. (guoyf@xaut.edu.cn)
Source title: International Journal of Materials Research
Abbreviated source title: Int. J. Mater. Res.
Volume: 104
Issue: 6
Issue date: 2013
Publication year: 2013
Pages: 598-602
Language: English
ISSN: 18625282
Document type: Journal article (JA)
Publisher: Carl Hanser Verlag, Kolbergerstrasse 22, Munchen, D-81679, Germany
Abstract: This paper evaluates the compression deformation behaviour and energy
absorbing properties of honeycomb paper- boards with different thicknesses under
homogeneous vertical static compression loading. Each piece of the static compression stress and
strain curves of the honeycomb paperboards is similar and comprises three parts of compression
deformation (elastic region, plateau region, and densi- fication region), which reflects the
mechanical properties such as approximately linear elastic deformation, large plastic deformation
with local collapse and densification. The unit volume deformation energy and strain curves and
two kinds of static compression cushioning curves show that within the elastic region and plateau
region of the stress and strain curves, the honeycomb paperboards hold better energy absorbing
properties and the change of the cushioning factor with an increase in the thickness of
honeycomb paperboards is very small.
Number of references: 13
Main heading: Loading
Controlled terms: Energy absorption - Honeycomb structures - Paperboards - Strain
Uncontrolled terms: Absorbing properties - Compression deformation - Cushioning
factor - Honeycomb paperboard - Large plastic deformation - Static compression - Static
compression stress - Stress and strain