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    初始状态对动力锚土体侵彻特性影响的模拟研究

    Numerical Research on the Influence of InitialState on the Penetration Characteristics of Power Anchors in Soil

    • 摘要: 为了突破溃口封堵传统技术效率低的瓶颈问题,提出利用动力锚在堤防溃口处快速构建锚固点的技术创新,而探明动力锚侵彻机制则是新技术的关键科学问题.以溃口抢险专用动力锚和溃口土体为研究对象,采用数值模拟方法研究了锚体侵彻规律及主要影响因素.利用Ansys软件及多介质ALE方法构建了侵彻三维数学模型,模拟了不同初始状态下动力锚侵彻过程,提取了侵彻速度、位移、质心轨迹和姿态偏转角等要素.研究结果表明:动力锚入土后侵彻速度近似呈指数型衰减,且衰减梯度递减;侵彻深度曲线呈对数函数特点,轨迹参数及偏移程度与入射角和初速度密切相关,在垂直90°入射时侵彻效率最高——侵彻深度大且偏移量小;施加转动惯量可提高动力锚的侵彻稳定性,自旋角速度为50rad/s时稳定效果较好;施加荷载可明显增加锚体的侵彻深度,同时也使得偏移量增大.该研究成果可为动力锚设计与溃口抢险新技术提供理论与技术支撑.

       

      Abstract: In order to solve the critical problem of low efficiency in traditional breach closure techniques,the paper proposes an innovative approach utilizing dynamic anchors for rapid construction of anchor points at dike breaches.The penetration mechanism of dynamic anchors is one of the key scientific problems underlying this novel technology.Focusing on breach-specific dynamic anchors and dike soils,the paper investigates the penetration behavior of anchors and the key factors by means of numerical simulation method.The three-dimensional mathematical model was established using Ansys software and the multi-material Arbitrary Lagrangian-Eulerian (ALE) method.The penetration processes of dynamic anchors under various initial conditions were simulated,and key parameters were collected,such as penetration velocity,displacement,centroid trajectory,and attitude deflection angles.Result indicates that the penetration velocity of dynamic anchors approximately decays following a trend of exponential function with diminishing gradients,while the penetration depth curve presents a logarithmic function.Trajectory parameters and deviation magnitude are closely associated with the incident angle and initial velocity,and data shows that vertical incidence penetration in a direction of 90 degree is supposed to fulfill the optimal penetration efficiency,i.e.,with deeper penetration and minimal deviation.Besides,adding rotational inertia could enhance the penetration stability of dynamic anchors,and the optimal stabilization is observed as the spin angular velocity is 50rad/s.Additionally,adding external loads would significantly increases not only penetration depth but also the offset.The result may provide theoretical and technical support for the design of dynamic anchors and the development of novel breach emergency response technologies.

       

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