基于构型设计的包装容器缓冲效应数值分析

Xin Fa Chen; Tian Ye; Yu Long Li; Tao Suo

doi:10.15918/j.tbit1001-0645.2019.04.004

基于构型设计的包装容器缓冲效应数值分析

Translated title of the contribution: Numerical Simulation on Cushion Effect of Packaging Container with Configuration Design

Xin Fa Chen, Tian Ye, Yu Long Li, Tao Suo

School of Aeronautics

Research output: Contribution to journal › Article › peer-review

Abstract

Three packaging containers with configuration design were proposed according to material plastic deformation and energy dissipation theory. Numerical simulations of packaging container dynamic behavior under several drop conditions were carried out using finite element analysis software Abaqus/Explicit. Drop altitudes of normal, transverse and oblique impact were taken into account, and the drop height was 50 meters in the simulations. Stress and deformation distribution of container subjected to different impact cases were gained. Impact cushion properties of the three containers were discussed. The numerical results indicate the containers with configuration design can withstand the impact of 50 m free fall. Thin shell bulge and wide plateau stress are mainly energy dissipation ways for cushion material. It will help improve protected object's safety under impact environment.

Translated title of the contribution	Numerical Simulation on Cushion Effect of Packaging Container with Configuration Design
Original language	Chinese (Traditional)
Pages (from-to)	352-358
Number of pages	7
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	39
Issue number	4
DOIs	https://doi.org/10.15918/j.tbit1001-0645.2019.04.004
State	Published - 1 Apr 2019

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title = "基于构型设计的包装容器缓冲效应数值分析",

abstract = "Three packaging containers with configuration design were proposed according to material plastic deformation and energy dissipation theory. Numerical simulations of packaging container dynamic behavior under several drop conditions were carried out using finite element analysis software Abaqus/Explicit. Drop altitudes of normal, transverse and oblique impact were taken into account, and the drop height was 50 meters in the simulations. Stress and deformation distribution of container subjected to different impact cases were gained. Impact cushion properties of the three containers were discussed. The numerical results indicate the containers with configuration design can withstand the impact of 50 m free fall. Thin shell bulge and wide plateau stress are mainly energy dissipation ways for cushion material. It will help improve protected object's safety under impact environment.",

keywords = "Configuration design, Energy absorption, Impact cushion, Numerical simulation, Packaging container",

author = "Chen, {Xin Fa} and Tian Ye and Li, {Yu Long} and Tao Suo",

year = "2019",

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doi = "10.15918/j.tbit1001-0645.2019.04.004",

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T1 - 基于构型设计的包装容器缓冲效应数值分析

AU - Chen, Xin Fa

AU - Ye, Tian

AU - Li, Yu Long

AU - Suo, Tao

PY - 2019/4/1

Y1 - 2019/4/1

N2 - Three packaging containers with configuration design were proposed according to material plastic deformation and energy dissipation theory. Numerical simulations of packaging container dynamic behavior under several drop conditions were carried out using finite element analysis software Abaqus/Explicit. Drop altitudes of normal, transverse and oblique impact were taken into account, and the drop height was 50 meters in the simulations. Stress and deformation distribution of container subjected to different impact cases were gained. Impact cushion properties of the three containers were discussed. The numerical results indicate the containers with configuration design can withstand the impact of 50 m free fall. Thin shell bulge and wide plateau stress are mainly energy dissipation ways for cushion material. It will help improve protected object's safety under impact environment.

AB - Three packaging containers with configuration design were proposed according to material plastic deformation and energy dissipation theory. Numerical simulations of packaging container dynamic behavior under several drop conditions were carried out using finite element analysis software Abaqus/Explicit. Drop altitudes of normal, transverse and oblique impact were taken into account, and the drop height was 50 meters in the simulations. Stress and deformation distribution of container subjected to different impact cases were gained. Impact cushion properties of the three containers were discussed. The numerical results indicate the containers with configuration design can withstand the impact of 50 m free fall. Thin shell bulge and wide plateau stress are mainly energy dissipation ways for cushion material. It will help improve protected object's safety under impact environment.

KW - Configuration design

KW - Energy absorption

KW - Impact cushion

KW - Numerical simulation

KW - Packaging container

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基于构型设计的包装容器缓冲效应数值分析

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