Research on Cushioning Package Design Methods Based on Infinitive Equations

Zhuan Wei; Guang Jun Hua

doi:10.4028/www.scientific.net/AMM.200.109

Paper Titles

The System Design of Vibration Transmission Test for Cushioning Packaging Materials
p.90

Investigation into Energy Absorption of Corrugated Paperboard with B-Flute
p.94

A New Method for Constructing Damage Boundary Curve Using Shock Response Spectra
p.98

Cushioning Optimization of Multilayer Regularly-Arranged Circular Honeycombs under In-Plane Crushing Loadings
p.104

Research on Cushioning Package Design Methods Based on Infinitive Equations
p.109

Study on the Constitutive Model of Double-Wall Corrugated Cardboard with A and B Flutes
p.114

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

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 200Research on Cushioning Package Design Methods...

Research on Cushioning Package Design Methods Based on Infinitive Equations

Abstract:

The cushion design methods based on cushioning coefficient - maximum stress curve were studied. In research work, the cushioning coefficient - maximum stress curve was equivalent to an infinitive equation, and then composed to infinitive equations together with the cushion area and thickness formula. The cushion design methods based on cushioning coefficient - maximum stress curve was characterized as the problem of solving infinitive equations. By this method, the classic cushion area and thickness calculation methods were analyzed. It is believed that the essence of the classic design methods is increasing a restriction to the infinitive equations, as changed the original infinitive equations to posed equations. The research work can help designers deep understanding the traditional cushioning design methods and theories, and can be used to flexible design the cushion structure.

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Periodical:

Applied Mechanics and Materials (Volume 200)

Pages:

109-113

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.200.109

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Online since:

October 2012

Authors:

Zhuan Wei, Guang Jun Hua

Keywords:

Cushioning Coefficient, Cushioning Packaging Design, Infinitive Equations

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References

[1] China Standard: GB-T 8166-1987. (In Chinese)

Google Scholar

[2] L.Y. Mei: China Packaging, (2007) No.6, pp.7-9. (In Chinese)

Google Scholar

[3] L.J.Li: China Agricultural Machinery Association 2006 Annual Conference (Zhenjiang City,China, November 13-14, 2006). Vol.1, pp.1459-1461. (In Chinese)

Google Scholar

[4] H.Xiang: Fundamentals of Packaging Design Engineering (National Defence Industry Press, China 2002), pp.99-102. (In Chinese)

Google Scholar

[5] H.L. Zhang and C.Liu: Journal of Northwest Institute on Light Industry, Vol. 8 (1990) No.3, pp.45-48. (In Chinese)

Google Scholar

[6] G.X. Peng: Logistics and Transport Packaging Design (Printing Industry Press, China 2006), pp.86-91. (In Chinese)

Google Scholar

[7] Z.W. Wang and Y.P.E: Materials and Design, Vol. 31 (2010), p.4321–4328.

Google Scholar

[8] Tang Bosen: Packaging Dynamics (Chemical Industry Press, China 2011), pp.90-104. (In Chinese)

Google Scholar

[9] D.Gao and H.W.Ji: Packaging Dynamics (Light Industry Press, China 2010), pp.115-120. (In Chinese)

Google Scholar