Numerical simulation of rescue cabin under blasting in the tunnel

Yi Xin Zeng; Chun Hua Bai; Jian Ping Li; Jian Chen; Zhong Qi Wang

Numerical simulation of rescue cabin under blasting in the tunnel

Yi Xin Zeng^*, Chun Hua Bai, Jian Ping Li, Jian Chen, Zhong Qi Wang

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

11 Citations (Scopus)

Abstract

Based on Hypermesh and LS-DYNA, the dynamic response of a rescue capsule of simple steel structure under blasting was simulated by numerical method. The maximum displacement on the cabin diminishes exponentially with the pressure rise time, and increases as the overpressure affecting time, the numerical simulation of detection can not ignore the effects of time-parameters. The maximum displacement of cabin unit decreases 3 mm while the thickness of circumferential ribs increass from 8 mm to 14 mm, and it decreases only 0.9 mm as the thickness of axial ribs increases from 8 mm to 14 mm. Circumferential ribs plays an important role on reducing surface displacement and increasing the strength of the cabin. Certain theoretical basis about designing and testing is provided by the results of numerical simulation.

Original language	English
Pages (from-to)	1705-1708
Number of pages	4
Journal	Meitan Xuebao/Journal of the China Coal Society
Volume	37
Issue number	10
Publication status	Published - Oct 2012

Keywords

Axial ribs
Circumferential ribs
Overpressure affecting time
Pressure rise time
Rescue cabin

Cite this

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title = "Numerical simulation of rescue cabin under blasting in the tunnel",

abstract = "Based on Hypermesh and LS-DYNA, the dynamic response of a rescue capsule of simple steel structure under blasting was simulated by numerical method. The maximum displacement on the cabin diminishes exponentially with the pressure rise time, and increases as the overpressure affecting time, the numerical simulation of detection can not ignore the effects of time-parameters. The maximum displacement of cabin unit decreases 3 mm while the thickness of circumferential ribs increass from 8 mm to 14 mm, and it decreases only 0.9 mm as the thickness of axial ribs increases from 8 mm to 14 mm. Circumferential ribs plays an important role on reducing surface displacement and increasing the strength of the cabin. Certain theoretical basis about designing and testing is provided by the results of numerical simulation.",

keywords = "Axial ribs, Circumferential ribs, Overpressure affecting time, Pressure rise time, Rescue cabin",

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T1 - Numerical simulation of rescue cabin under blasting in the tunnel

AU - Zeng, Yi Xin

AU - Bai, Chun Hua

AU - Li, Jian Ping

AU - Chen, Jian

AU - Wang, Zhong Qi

PY - 2012/10

Y1 - 2012/10

N2 - Based on Hypermesh and LS-DYNA, the dynamic response of a rescue capsule of simple steel structure under blasting was simulated by numerical method. The maximum displacement on the cabin diminishes exponentially with the pressure rise time, and increases as the overpressure affecting time, the numerical simulation of detection can not ignore the effects of time-parameters. The maximum displacement of cabin unit decreases 3 mm while the thickness of circumferential ribs increass from 8 mm to 14 mm, and it decreases only 0.9 mm as the thickness of axial ribs increases from 8 mm to 14 mm. Circumferential ribs plays an important role on reducing surface displacement and increasing the strength of the cabin. Certain theoretical basis about designing and testing is provided by the results of numerical simulation.

AB - Based on Hypermesh and LS-DYNA, the dynamic response of a rescue capsule of simple steel structure under blasting was simulated by numerical method. The maximum displacement on the cabin diminishes exponentially with the pressure rise time, and increases as the overpressure affecting time, the numerical simulation of detection can not ignore the effects of time-parameters. The maximum displacement of cabin unit decreases 3 mm while the thickness of circumferential ribs increass from 8 mm to 14 mm, and it decreases only 0.9 mm as the thickness of axial ribs increases from 8 mm to 14 mm. Circumferential ribs plays an important role on reducing surface displacement and increasing the strength of the cabin. Certain theoretical basis about designing and testing is provided by the results of numerical simulation.

KW - Axial ribs

KW - Circumferential ribs

KW - Overpressure affecting time

KW - Pressure rise time

KW - Rescue cabin

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SN - 0253-9993

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JO - Meitan Xuebao/Journal of the China Coal Society

JF - Meitan Xuebao/Journal of the China Coal Society

IS - 10

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Numerical simulation of rescue cabin under blasting in the tunnel

Abstract

Keywords

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