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A discrete particle approach to simulate the combined effect of blast and sand impact loading of steel plates

机译:一种离散粒子方法,模拟钢板的爆炸冲击和沙冲击载荷的联合作用

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摘要

The structural response of a stainless steel plate subjected to the combined blast and sand impact loading from a buried charge has been investigated using a fully coupled approach in which a discrete particle method is used to determine the load due to the high explosive detonation products, the air shock and the sand, and a finite element method predicts the plate deflection. The discrete particle method is based on rigid, spherical particles that transfer forces between each other during collisions. This method, which is based on a Lagrangian formulation, has several advantages over coupled Lagrangian-Eulerian approaches as both advection errors and severe contact problems are avoided. The method has been validated against experimental tests where spherical 150 g C-4 charges were detonated at various stand-off distances from square, edge-clamped 3.4 mm thick AL-6XN stainless steel plates. The experiments were carried out for a bare charge, a charge enclosed in dry sand and a charge enclosed in fully saturated wet sand. The particle-based method is able to describe the physical interactions between the explosive reaction products and soil particles leading to a realistic prediction of the sand ejecta speed and momentum. Good quantitative agreement between the experimental and predicted deformation response of the plates is also obtained.
机译:使用完全耦合的方法研究了不锈钢板的结构响应,这些结构来自埋入炸药的爆炸和沙石冲击载荷共同作用,其中采用离散粒子法确定由于高爆炸性爆炸产物而产生的载荷,即空气冲击和沙子,以及有限元方法可预测板的挠度。离散粒子方法基于在碰撞过程中彼此之间传递力的刚性球形粒子。该方法基于拉格朗日公式,与拉格朗日-欧拉耦合方法相比,具有多个优点,因为避免了对流误差和严重的接触问题。该方法已针对实验测试进行了验证,在实验中球形的150 g C-4炸药从方形的边缘夹紧的3.4 mm厚的AL-6XN不锈钢板以各种间隔距离引爆。对裸装料,装在干砂中的装料和装在完全饱和的湿砂中的装料进行实验。基于粒子的方法能够描述爆炸性反应产物与土壤颗粒之间的物理相互作用,从而对沙粒的射出速度和动量进行现实的预测。还获得了板的实验和预测变形响应之间的良好定量一致性。

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  • 来源
    《Journal of the Mechanics and Physics of Solids》 |2011年第5期|p.940-958|共19页
  • 作者

    T. Bθrvik; L 01ovsson; A.G. Hanssen; K.P. Dharmasena; H. Hansson; H.N.G. Wadley;

  • 作者单位

    Structural Impact Laboratory (SIMLab), Centre for Research-based Innovation (CRI) and Department of Structural Engineering,Norwegian University of Science and Technology, Rich. Birkelands vei 1A, NO-7491 Trondheim. Norway,Norwegian Defence Estates Agency, Research and Development Department, PB 405, Sentrum, NO-0103 Oslo, Norway;

    IMPETUS Afea AB, SordalavSgen 22, SE-141 60 Huddinge, Sweden;

    Structural Impact Laboratory (SIMLab), Centre for Research-based Innovation (CRI) and Department of Structural Engineering,Norwegian University of Science and Technology, Rich. Birkelands vei 1A, NO-7491 Trondheim. Norway,IMPETUS Afea AB, SordalavSgen 22, SE-141 60 Huddinge, Sweden;

    Department of Materials Science and Engineering, University of Virginia, Charlottesville, VA 22904, USA;

    KTH Royal Institute of Technology, Division of Concrete Structures, SE-WO 44 Stockholm, Sweden;

    Department of Materials Science and Engineering, University of Virginia, Charlottesville, VA 22904, USA;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    blast loads; experimental tests; sand ejecta; discrete particles; numerical simulations;

    机译:爆炸载荷;试验测试;沙粒喷射;离散颗粒;数值模拟;

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