考虑环境温、湿度的球形装药爆炸冲击波参数计算模型

聂源 蒋建伟 门建兵

聂源, 蒋建伟, 门建兵. 考虑环境温、湿度的球形装药爆炸冲击波参数计算模型[J]. 爆炸与冲击, 2018, 38(4): 735-742. doi: 10.11883/bzycj-2016-0340
引用本文: 聂源, 蒋建伟, 门建兵. 考虑环境温、湿度的球形装药爆炸冲击波参数计算模型[J]. 爆炸与冲击, 2018, 38(4): 735-742. doi: 10.11883/bzycj-2016-0340
NIE Yuan, JIANG Jianwei, MEN Jianbing. Calculation models for parameters of spherical charge blasting shock wave considering ambient temperature and humidity[J]. Explosion And Shock Waves, 2018, 38(4): 735-742. doi: 10.11883/bzycj-2016-0340
Citation: NIE Yuan, JIANG Jianwei, MEN Jianbing. Calculation models for parameters of spherical charge blasting shock wave considering ambient temperature and humidity[J]. Explosion And Shock Waves, 2018, 38(4): 735-742. doi: 10.11883/bzycj-2016-0340

考虑环境温、湿度的球形装药爆炸冲击波参数计算模型

doi: 10.11883/bzycj-2016-0340
基金项目: 

国家自然科学基金青年基金项目 11502020

详细信息
    作者简介:

    聂源(1992-), 男, 博士研究生

    通讯作者:

    蒋建伟, bitjjw@bit.edu.cn

  • 中图分类号: O382.1

Calculation models for parameters of spherical charge blasting shock wave considering ambient temperature and humidity

  • 摘要: 为获得实际温、湿度环境中冲击波参数计算模型,计算了考虑温、湿度的理想气体状态方程参数,利用SPEED软件,针对典型状态空气中球形装药爆炸过程进行数值模拟,得到了温、湿度对爆炸冲击波参数的影响规律。结果表明,温度和相对湿度对冲击波超压的影响较小,而正压作用时间和冲量随温度和相对湿度的升高均呈线性递减关系,在高温高湿和寒冷干燥条件下,冲击波正压作用时间和冲量相差分别达21.8%和18.4%。以经典工程计算模型为基础,通过引入含有温度、湿度和对比距离的修正因子,建立了考虑环境温、湿度的球形装药爆炸冲击波参数的计算模型。采用该模型计算得到的不同药量球形TNT爆炸冲击波参数与数值仿真结果吻合较好,可对装药在实际环境中威力评估提供参考。
  • 图  1  数值仿真模型

    Figure  1.  Numerical simulation model

    图  2  Δp-T曲线

    Figure  2.  Δp-T curves

    图  3  Δp-H曲线

    Figure  3.  Δp-H curves

    图  4  τ-T曲线

    Figure  4.  τ-T curves

    图  5  τ-H曲线

    Figure  5.  τ-H curves

    图  6  I-T曲线

    Figure  6.  I-T curves

    图  7  I-H曲线

    Figure  7.  I-H curves

    图  8  f2(T)-T曲线

    Figure  8.  f2(T)-T curves

    图  9  f2(H)-H曲线

    Figure  9.  f2(H)-H curves

    图  10  f2(Z)-Z曲线

    Figure  10.  f2(Z)-Z curves

    图  11  f3(T)-T曲线

    Figure  11.  f3(T)-T curves

    图  12  f3(H)-H曲线

    Figure  12.  f3(H)-H curves

    图  13  f3(Z)-Z曲线

    Figure  13.  f3(Z)-Z curves

    图  14  计算模型与数值模拟得到的正压作用时间对比

    Figure  14.  Comparison between numerical simulation and calculation results of τ

    图  15  计算模型与数值模拟得到的冲量对比

    Figure  15.  Comparison between numerical simulation and calculation results of I

    表  1  典型温度和相对湿度的空气参数

    Table  1.   Parameters of ideal gas equation of state for air at typical temperature and relative humidity

    T/℃ H/% ρ/(kg·m-3) γ cVm/(J·kg-1) e/(J·g-1)
    -40 0 1.514 1.399266 719.0700 167.6512
    -20 0 1.394 1.399266 719.0700 182.0326
    0 0 1.292 1.399266 719.0700 196.4140
    20 0 1.204 1.399266 719.0700 210.7954
    100 1.193 1.397167 729.2962 213.7932
    40 0 1.127 1.399266 719.0700 225.1768
    100 1.096 1.392724 751.9399 235.4700
    下载: 导出CSV

    表  2  TNT炸药JWL状态方程参数[13]

    Table  2.   Parameters of JWL equation of state for TNT explosive[13]

    ρ0/(g·cm-3) A/GPa B/GPa R1 R2 ω E0/GPa
    1.67 373.8 3.747 4.15 0.90 0.35 6.00
    下载: 导出CSV
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出版历程
  • 收稿日期:  2016-11-05
  • 修回日期:  2017-03-28
  • 刊出日期:  2018-07-25

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