Simplified calculation of airblast variability and reliability-based design load factors for spherical air burst and hemispherical surface burst explosions

IF 2.1 Q2 ENGINEERING, CIVIL
M. Stewart
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引用次数: 1

Abstract

There can be significant uncertainty and variability with explosive blast loading. Standards and codes of practice are underpinned by reliability-based principles, and there is little reason not to apply these to explosive blast loading. This paper develops a simplified approach where regression equations may be used to predict the probabilistic model of airblast variability and associated reliability-based design load factors (or RBDFs) for all combinations of range, explosive mass and model errors. These models are applicable to (i) hemispherical surface bursts, and (ii) spherical free-air bursts. The benefit of this simplified approach is that the equations can be easily programed into a spreadsheet, computer code or other numerical methods. There is no need for any Monte-Carlo or other probabilistic calculations. Examples then illustrate how model error, range and explosive mass uncertainty and variability affect the variability of pressure and impulse, which in turn affect the damage assessment of residential construction.
球形空气爆和半球面爆炸的基于空气弹可变性和可靠性的设计载荷系数的简化计算
爆炸爆炸荷载可能存在显著的不确定性和可变性。标准和实践规范以基于可靠性的原则为基础,几乎没有理由不将这些原则应用于爆炸爆炸荷载。本文开发了一种简化的方法,其中回归方程可用于预测射程、爆炸物质量和模型误差的所有组合的空气弹可变性和相关的基于可靠性的设计载荷因子(RBDF)的概率模型。这些模型适用于(i)半球表面爆发和(ii)球形自由空气爆发。这种简化方法的好处是,可以很容易地将方程编程为电子表格、计算机代码或其他数值方法。不需要任何蒙特卡罗或其他概率计算。然后举例说明了模型误差、范围和爆炸物质量的不确定性和可变性如何影响压力和脉冲的可变性,进而影响住宅建筑的损坏评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.30
自引率
25.00%
发文量
48
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