Thirteenth National Conference on Packaging Engineering (TNCPE 2010 E-BOOK)

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Thirteenth National Conference on Packaging Engineering (TNCPE 2010 E-BOOK)

Wuhan,China,8.21-8.26,2010

ISBN: 978-1-935068-22-8 Scientific Research Publishing, USA

E-Book 456pp Pub. Date: August 2010

Category: Engineering

Price: $80

Title:	Static Compressive Mechanical properties and Energy absorption capabilityof closed-cell Al alloy foam
Source:	Thirteenth National Conference on Packaging Engineering (TNCPE 2010 E-BOOK) (pp 95-99)
Author(s):	Zhanguang Wang, Institute of Technology, Jinggangshan University, Ji’an 343009, China Ping Cai, Institute of Technology, Jinggangshan University, Ji’an 343009, China Qifang Ruan, Institute of Technology, Jinggangshan University, Ji’an 343009, China Jianzhong Ying, Institute of Technology, Jinggangshan University, Ji’an 343009, China Qiao Yang, Institute of Technology, Jinggangshan University, Ji’an 343009, China
Abstract:	Closed-cell Al alloy foam was prepared by foaming in melt, and static uniaxial compressiveAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberexperiment was carried out to study the effect of porosity and pore structure on compressive properties andAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberenergy absorption capability. The results show that the compressive stress-strain curves of closed-cell AlAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberalloy foam were similar. They all show three stages of linear elastic deformation, platform andAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberdensification. Compressive properties increased with the decreasing porosity and pore structure change.Abstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubberFormula on energy absorption capability of closed-cell Al alloy foam was presented, which could provideAbstract: The nonlinear dynamics equation is developed for suspension-type package system with the rubbertheoretical support for its engineering application.

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