Open AccessNumerical Analysis and Theoretical Verification on the Dynamic Response of Typical Components under Explosion Load
Author(s) -
Ziyuan Li,
Liqiong Wang,
Jinju Zhang,
Tao Fan,
Bo Feng
Publication year - 2020
Publication title -
acs omega
Language(s) - English
Resource type - Journals
ISSN - 2470-1343
DOI - 10.1021/acsomega.0c04355
Subject(s) - float glass , stress (linguistics) , computer simulation , finite element method , displacement (psychology) , stress wave , materials science , numerical analysis , center (category theory) , structural engineering , float (project management) , laminated glass , mechanics , composite material , engineering , mathematics , physics , mathematical analysis , psychology , philosophy , linguistics , psychotherapist , chemistry , layer (electronics) , marine engineering , crystallography
To analyze the response of float glass under explosion load, the model was developed by the method of FEM simulation combined with stress theory. The numerical simulation results show that the stress caused by the blast wave on the center of the glass panel is continuous, while the stress around the glass is instantaneous. The displacement on both sides of the glass is larger than that at the center and at the four corners of the glass. The effective stress at the center of the glass is 86.08 MPa by numerical simulation. However, the effective stress at the center of the glass is 87.75 MPa by theoretical calculation. The error rate between the simulation result and the theoretical result is only 1.90%. Therefore, it is proved that the theoretical expressions in this paper are reliable for calculating the effective stress of single float glass under explosion load.
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