Vertical static compression performance of honeycomb paperboard
-
Yanfeng Guo
Abstract
This paper evaluates the compression deformation behaviour and energy absorbing properties of honeycomb paperboards 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 densification 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.
References
[1] L.J.Gibson, M.F.Ashby: Cellular solids: structure and properties (2nd edition), Cambridge University Press, Cambridge (1997).10.1017/CBO9781139878326Search in Google Scholar
[2] R.Lakes: Nature361 (1993) 511. 10.1038/361511a0Search in Google Scholar
[3] J.Hohe, W.Becker: Applied Mechanics Review55 (2002) 61. 10.1115/1.1425394Search in Google Scholar
[4] A.Abbadi, Y.Koutsawa, A.Carmasol, S.Belouettar, Z.Azari: Simulation Modelling Practice and Theory17 (2009) 1533. 10.1016/j.simpat.2009.05.008Search in Google Scholar
[5] Y.H.Zhang, H.L.Fan, D.N.Fang: Composites Science and Technology68 (2008) 3299. 10.1016/j.compscitech.2007.03.012Search in Google Scholar
[6] Y.Chi, G.S.Langdon, G.N.Nurick: Materials & Design, 31 (2010) 1887. 10.1016/j.matdes.2009.10.058Search in Google Scholar
[7] G.G.Galletti, C.Vinquist, Q.S.Es-Said: Engineering Failure Analysis, 15 (2008) 555. 10.1016/j.engfailanal.2007.04.004Search in Google Scholar
[8] Y.F.Guo, J.H.Zhang: Shock and Vibration, 11 (2004) 521.10.1155/2004/936804Search in Google Scholar
[9] L.X.Lu, Y.P.Sun, Z.W.Wang: Packaging Technology and Science, 18 (2005) 141. 10.1002/pts.683Search in Google Scholar
[10] D.M.Wang, Z.W.Wang: Packaging Technology and Science, 21 (2008) 309. 10.1002/pts.808Search in Google Scholar
[11] C.Borsellinoa, G.Di Bella: Materials and Design, 30 (2009) 4054. 10.1016/j.matdes.2009.05.013Search in Google Scholar
[12] R.D.Mindlin: Bell System Technical Journal, 24 (1945) 352.10.1002/j.1538-7305.1945.tb00892.xSearch in Google Scholar
[13] G.S.Mustin: Theory and practice of cushion design, Shock and Vibration Information Center, Washington (1968).Search in Google Scholar
© 2013, Carl Hanser Verlag, München
Articles in the same Issue
- Contents
- Contents
- Original Contributions
- Analysis of V(C, N) nanoparticles in a medium carbon bainitic microalloyed steel and their influence on strengthening
- Experimental and numerical investigation of the microstructural influence on the deformation behavior of notched cp-titanium specimens
- Interfacial study of Si–Ge multilayers grown using ultrahigh-vacuum chemical vapor deposition
- Age-hardenability related to precipitation and lamellar-forming grain boundary reaction in dental low-carat gold alloy
- Calorimetric study and phase diagram investigation of the Au–Ga system
- Roles of iron and copper salts for controlling morphology of silver nanostructures
- Hydrothermal synthesis of nanowires, nanobelts, and nanotubes of vanadium oxides from one reaction system
- Facile synthesis of ultrafine TiO2 nanowires with large aspect ratio and its photoactivity
- Kinetics of thermal dehydration of sol-gel derived MgO–ZrO2 composite hydrogel
- Synthesis and reaction process of β-Si3N4 by means of carbothermal nitridation of serpentine
- Analysis of size effect and anisotropy of 6H – SiC thermal conductivity
- Effects of molecular polarity on nanofluidic behavior in a silicalite
- Vertical static compression performance of honeycomb paperboard
- Short Communications
- Synthesis of phase purity V2AlC via self-propagation high temperature sintering
- Densification and microwave properties of low-temperature co-fired CaO–B2O3–SiO2 glass-ceramic with La–B–Si additions
- DGM News
- DGM News
Articles in the same Issue
- Contents
- Contents
- Original Contributions
- Analysis of V(C, N) nanoparticles in a medium carbon bainitic microalloyed steel and their influence on strengthening
- Experimental and numerical investigation of the microstructural influence on the deformation behavior of notched cp-titanium specimens
- Interfacial study of Si–Ge multilayers grown using ultrahigh-vacuum chemical vapor deposition
- Age-hardenability related to precipitation and lamellar-forming grain boundary reaction in dental low-carat gold alloy
- Calorimetric study and phase diagram investigation of the Au–Ga system
- Roles of iron and copper salts for controlling morphology of silver nanostructures
- Hydrothermal synthesis of nanowires, nanobelts, and nanotubes of vanadium oxides from one reaction system
- Facile synthesis of ultrafine TiO2 nanowires with large aspect ratio and its photoactivity
- Kinetics of thermal dehydration of sol-gel derived MgO–ZrO2 composite hydrogel
- Synthesis and reaction process of β-Si3N4 by means of carbothermal nitridation of serpentine
- Analysis of size effect and anisotropy of 6H – SiC thermal conductivity
- Effects of molecular polarity on nanofluidic behavior in a silicalite
- Vertical static compression performance of honeycomb paperboard
- Short Communications
- Synthesis of phase purity V2AlC via self-propagation high temperature sintering
- Densification and microwave properties of low-temperature co-fired CaO–B2O3–SiO2 glass-ceramic with La–B–Si additions
- DGM News
- DGM News
