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Publishing Language: Chinese | Open Access

Study on blast load distribution of building surface under surface burst

Long MAWenjun YINQi LIJunyi GUANNianxue TONGShuai CHENGWenxiang LIUDezhi ZHANG( )
National Key Laboratory of Intense Pulsed Radiation Simulation and Effect, Northwest Institute of Nuclear Technology, Xi’an 710024, Shaanxi, China
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Abstract

In order to study the distribution of blast wave load of building surface under surface burst, firstly, the fine scaled experiments under laboratory environment were conducted. The blast wave pressure-time curves on the surface of building model under the situation of surface burst of spherical charge as well as the distribution law of blast wave characteristic parameters were obtained. Subsequently, the numerical simulation method of blast wave propagation was developed and verified by the experimental data. Through simulation, the blast load distribution and time-histories of blast pressure on the rear face of building were analyzed. Finally, the theoretical method based on blast wave time-history analysis and superposition rule was proposed, and the quantitative analysis model of the blast load distribution on the rear face of building which was verified by numerical results was obtained. The results show that the maximum blast load on the front face of building located at the bottom of the building, which the overall distribution was relatively uniform. The blast load on the rear face of building was mainly concentrated on the two sides of the top angle and the central axis, which was formed by the superposition of the diffraction waves from top and side edges, and the maximum overpressure occurred at the intersection position of different diffraction shock waves, which is affected by the building size and explosion distance.

CLC number: O383 Document code: A

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Cite this article:
MA L, YIN W, LI Q, et al. Study on blast load distribution of building surface under surface burst. Explosion and Shock Waves, 2026, 46(4). https://doi.org/10.11883/bzycj-2024-0428

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Received: 01 November 2024
Revised: 28 May 2025
Published: 05 April 2026
© 2026 Editorial Office of Explosion and Shock Waves

This is an open access article under the CC BY-NC license (https://creativecommons.org/licenses/by-nc/4.0/)