Stress wave numerical calculation excited from underground nuclear explosion in granite

Fangqing Zhong; Wentao Liu; Weiguo Xiao; Xiaolan Li; Xiaojun Wang

Stress wave numerical calculation excited from underground nuclear explosion in granite

Fangqing Zhong, Wentao Liu, Weiguo Xiao, Xiaolan Li, Xiaojun Wang

Biochemistry, Chemistry & Physics

Research output: Contribution to book or proceeding › Conference article › peer-review

1 Scopus citations

Abstract

A study was performed to investigate mechanics effect of underground nuclear explosion in granite. For action of high-temperature and high-pressure outcome gas, the rock near explosion point was vaporized and liquefied. The results showed that the introduction of cavity gas-leak model, rock response description were reasonable.

Original language	English
Title of host publication	Mechanics and Material Engineering for Science and Experiments
Editors	Y. Zhou, Y. Ghu, Z. Li, Y. Zhou, Y. Gu, Z. Li
Pages	528-529
Number of pages	2
State	Published - 2003
Event	Proceedings of the International Symposium of Young Scholars on Mechanics and Material Engineering for Science and Experiments - Changsha/Zhangjiajie, China Duration: Aug 11 2001 → Aug 16 2001

Publication series

Name	Mechanics and Material Engineering for Science and Experiments

Conference

Conference	Proceedings of the International Symposium of Young Scholars on Mechanics and Material Engineering for Science and Experiments
Country/Territory	China
City	Changsha/Zhangjiajie
Period	08/11/01 → 08/16/01

Scopus Subject Areas

General Materials Science
Mechanical Engineering

Keywords

Nuclear explosion
Numerical calculation
Stress wave

Cite this

@inproceedings{4f5e0595b84440d784fdfb30d588e493,

title = "Stress wave numerical calculation excited from underground nuclear explosion in granite",

abstract = "A study was performed to investigate mechanics effect of underground nuclear explosion in granite. For action of high-temperature and high-pressure outcome gas, the rock near explosion point was vaporized and liquefied. The results showed that the introduction of cavity gas-leak model, rock response description were reasonable.",

keywords = "Nuclear explosion, Numerical calculation, Stress wave",

author = "Fangqing Zhong and Wentao Liu and Weiguo Xiao and Xiaolan Li and Xiaojun Wang",

year = "2003",

language = "English",

isbn = "1880132796",

series = "Mechanics and Material Engineering for Science and Experiments",

pages = "528--529",

editor = "Y. Zhou and Y. Ghu and Z. Li and Y. Zhou and Y. Gu and Z. Li",

booktitle = "Mechanics and Material Engineering for Science and Experiments",

note = "Proceedings of the International Symposium of Young Scholars on Mechanics and Material Engineering for Science and Experiments ; Conference date: 11-08-2001 Through 16-08-2001",

}

Zhong, F, Liu, W, Xiao, W, Li, X & Wang, X 2003, Stress wave numerical calculation excited from underground nuclear explosion in granite. in Y Zhou, Y Ghu, Z Li, Y Zhou, Y Gu & Z Li (eds), Mechanics and Material Engineering for Science and Experiments. Mechanics and Material Engineering for Science and Experiments, pp. 528-529, Proceedings of the International Symposium of Young Scholars on Mechanics and Material Engineering for Science and Experiments, Changsha/Zhangjiajie, China, 08/11/01.

Stress wave numerical calculation excited from underground nuclear explosion in granite. / Zhong, Fangqing; Liu, Wentao; Xiao, Weiguo et al.
Mechanics and Material Engineering for Science and Experiments. ed. / Y. Zhou; Y. Ghu; Z. Li; Y. Zhou; Y. Gu; Z. Li. 2003. p. 528-529 (Mechanics and Material Engineering for Science and Experiments).

Research output: Contribution to book or proceeding › Conference article › peer-review

TY - GEN

T1 - Stress wave numerical calculation excited from underground nuclear explosion in granite

AU - Zhong, Fangqing

AU - Liu, Wentao

AU - Xiao, Weiguo

AU - Li, Xiaolan

AU - Wang, Xiaojun

PY - 2003

Y1 - 2003

N2 - A study was performed to investigate mechanics effect of underground nuclear explosion in granite. For action of high-temperature and high-pressure outcome gas, the rock near explosion point was vaporized and liquefied. The results showed that the introduction of cavity gas-leak model, rock response description were reasonable.

AB - A study was performed to investigate mechanics effect of underground nuclear explosion in granite. For action of high-temperature and high-pressure outcome gas, the rock near explosion point was vaporized and liquefied. The results showed that the introduction of cavity gas-leak model, rock response description were reasonable.

KW - Nuclear explosion

KW - Numerical calculation

KW - Stress wave

UR - http://www.scopus.com/inward/record.url?scp=0141998024&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:0141998024

SN - 1880132796

T3 - Mechanics and Material Engineering for Science and Experiments

SP - 528

EP - 529

BT - Mechanics and Material Engineering for Science and Experiments

A2 - Zhou, Y.

A2 - Ghu, Y.

A2 - Li, Z.

A2 - Zhou, Y.

A2 - Gu, Y.

A2 - Li, Z.

T2 - Proceedings of the International Symposium of Young Scholars on Mechanics and Material Engineering for Science and Experiments

Y2 - 11 August 2001 through 16 August 2001

ER -

Stress wave numerical calculation excited from underground nuclear explosion in granite

Abstract

Publication series

Conference

Scopus Subject Areas

Keywords

Other files and links

Fingerprint

Cite this