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Strain Growth in Containment Vessels
引用本文:DONG Q,LI Q M,ZHENG J Y (School of Mechanical,Aerospace and Civil Engineering,The University of Manchester,PO Box 88,Manchester M60 1QD,UK, Institute of Chemical Machinery,Zhejiang University,Hangzhou 310027,China). Strain Growth in Containment Vessels[J]. 天津大学学报(英文版), 2006, 12(Z1)
作者姓名:DONG Q  LI Q M  ZHENG J Y (School of Mechanical  Aerospace and Civil Engineering  The University of Manchester  PO Box 88  Manchester M60 1QD  UK   Institute of Chemical Machinery  Zhejiang University  Hangzhou 310027  China)
作者单位:School of Mechanical,Aerospace and Civil Engineering,The University of Manchester,PO Box 88,Manchester M60 1QD,UK; Institute of Chemical Machinery,Zhejiang University,Hangzhou 310027,China
摘    要:Strain growth is a phenomenon observed in containment vessels subjected to internal blast loading. The elastic response of the vessel may become larger in a later stage compared to its response during the initial stage. The dynamic responses of infinitely long cylindrical containment vessels subjected to uniformly-distributed internal blast loading are studied using LS-DYNA. The development of bending modes and the interaction between the breathing mode and bending modes are observed. The methodology developed for dynamic elastic buckling analysis is employed to study the strain growth phenomenon in explosion containment vessels. It is shown that the dynamic instable vibration of a containment vessel is the basic mechanism of strain growth.


Strain Growth in Containment Vessels
DONG Q,LI Q M,ZHENG J Y. Strain Growth in Containment Vessels[J]. Transactions of Tianjin University, 2006, 12(Z1)
Authors:DONG Q  LI Q M  ZHENG J Y
Abstract:Strain growth is a phenomenon observed in containment vessels subjected to internal blast loading. The elastic response of the vessel may become larger in a later stage compared to its response during the initial stage. The dynamic responses of infinitely long cylindrical containment vessels subjected to uniformly-distributed internal blast loading are studied using LS-DYNA. The development of bending modes and the interaction between the breathing mode and bending modes are observed. The methodology developed for dynamic elastic buckling analysis is employed to study the strain growth phenomenon in explosion containment vessels. It is shown that the dynamic instable vibration of a containment vessel is the basic mechanism of strain growth.
Keywords:strain growth  containment vessel  dynamic response  impulsive loading
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