水下接触爆炸气泡脉动特性的理论研究OA
Theoretical study of bubble pulsation characteristics in underwater contact explosions
为揭示水下接触爆炸气泡脉动特性的变化规律,弥补现有理论对接触爆炸工况研究的不足,基于不可压缩无黏流体假设,建立了刚性壁面接触爆炸的半球形气泡动力学模型,推导了气泡最大半径、初始半径以及脉动周期与自由场参数的定量关系.理论分析表明,接触爆炸气泡最大半径、初始半径及脉动周期为自由场工况的 1.26 倍(理论比例系数).通过LS-DYNA软件对 0.300、0.233 和 5.000 g TNT装药在不同水深条件下的水下爆炸进行数值模拟,结果表明:接触爆炸气泡最大半径和脉动周期的模拟值分别为自由场气泡的 1.22~1.24 倍和 1.20~1.21 倍,与理论预测的相对误差小于 5%.进一步通过水箱实验验证接触爆炸气泡最大半径与脉动周期分别为自由场的 1.10 和 1.06 倍,实际工况因受流体可压缩性、气泡不稳定变形等因素影响,实际比例系数略低于理论比例系数.
Contact explosion is an important condition in the damage and protection of underwater structures,and the pulsating bubbles generated by explosive underwater explosion are an important damage source.The current research on underwater explosion bubbles mainly focuses on the pulsating characteristics of spherical bubbles under free-field and typical boundary conditions,while there is a notable lack of research on non-spherical bubbles under contact explosion conditions.The pulsation characteristics of underwater contact explosion bubbles were systematically investigated through theoretical modeling,numerical simulations,and experiments.To address the theoretical gap in contact explosion dynamics,a hemispherical bubble dynamics model under rigid wall contact conditions was established based on incompressible and inviscid fluid assumptions.By comparing present model with the spherical bubble pulsation model in an incompressible flow field,quantitative relationships between parameters such as the maximum bubble radius,initial radius,pulsation period were obtained.Theoretical analysis reveals that the maximum radius,initial radius,and pulsation period of contact explosion bubbles are 1.26 times(theoretical scaling factor)those of free-field conditions.An error analysis was conducted to account for factors such as fluid compressibility,unstable bubble deformation,and energy dissipation induced by bubble-rigid wall interactions.Numerical simulations using LS-DYNA for underwater explosions with 0.300 g,0.233 g,and 5.000 g TNT charges under varying water depths reveal that the scaling factors for maximum radius and pulsation period under contact explosion conditions range from 1.22 to 1.24 and 1.20 to 1.21 times those of free-field results,respectively,with simulation errors below 5%compared to theoretical predictions.Experimental validation in a water tank shows that the maximum radius and period of contact explosion bubbles are 1.10 and 1.06 times those of free-field conditions.During the experiments,plate vibrations were observed upon explosion,which significantly contributed to experimental errors.This work addresses the theoretical gap in contact explosion bubble dynamics,enhances the understanding of boundary effects in underwater explosion phenomena.
王天召;孙远翔;陈岩武
北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081
数理科学
水下爆炸气泡脉动特性接触爆炸有限元模拟
underwater explosion bubblepulsation characteristicscontact explosionfinite element simulation
《爆炸与冲击》 2026 (1)
63-72,10
爆炸科学与安全防护全国重点实验室(北京理工大学)自主研究课题探索性项目(YBKT25-04)
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