Factors Affecting the Compression and Energy Absorption Properties of Small-Sized Thin-Walled Metal Tubes

Xiaoqin Hao; Jia Yu; Weidong He; Yi Jiang

doi:10.1155/2020/6135925

Factors Affecting the Compression and Energy Absorption Properties of Small-Sized Thin-Walled Metal Tubes

Xiaoqin Hao^*, Jia Yu, Weidong He, Yi Jiang

^*Corresponding author for this work

School of Aerospace Engineering

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

Abstract

To solve the problem of the effective cushioning of fast-moving mechanical components in small ring-shaped spaces, the factors affecting the compression and energy absorption properties of small-sized hollow metal tubes were studied. Simulation models were constructed to analyse the influences of tube diameter, wall thickness, relative position, and number of stacked components on the compression and energy absorption properties. The correctness of the simulation method and its output were verified by experiments, which proved the effectiveness of compression and energy absorption properties of small-sized thin-walled metal tubes. The research provides support for the application of metal tube buffers in armament launch technology and engineering practice.

Original language	English
Article number	6135925
Journal	International Journal of Aerospace Engineering
Volume	2020
DOIs	https://doi.org/10.1155/2020/6135925
Publication status	Published - 2020

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10.1155/2020/6135925

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abstract = "To solve the problem of the effective cushioning of fast-moving mechanical components in small ring-shaped spaces, the factors affecting the compression and energy absorption properties of small-sized hollow metal tubes were studied. Simulation models were constructed to analyse the influences of tube diameter, wall thickness, relative position, and number of stacked components on the compression and energy absorption properties. The correctness of the simulation method and its output were verified by experiments, which proved the effectiveness of compression and energy absorption properties of small-sized thin-walled metal tubes. The research provides support for the application of metal tube buffers in armament launch technology and engineering practice.",

author = "Xiaoqin Hao and Jia Yu and Weidong He and Yi Jiang",

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AU - Hao, Xiaoqin

AU - Yu, Jia

AU - He, Weidong

AU - Jiang, Yi

PY - 2020

Y1 - 2020

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AB - To solve the problem of the effective cushioning of fast-moving mechanical components in small ring-shaped spaces, the factors affecting the compression and energy absorption properties of small-sized hollow metal tubes were studied. Simulation models were constructed to analyse the influences of tube diameter, wall thickness, relative position, and number of stacked components on the compression and energy absorption properties. The correctness of the simulation method and its output were verified by experiments, which proved the effectiveness of compression and energy absorption properties of small-sized thin-walled metal tubes. The research provides support for the application of metal tube buffers in armament launch technology and engineering practice.

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JO - International Journal of Aerospace Engineering

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M1 - 6135925

ER -

Factors Affecting the Compression and Energy Absorption Properties of Small-Sized Thin-Walled Metal Tubes

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