水中钢板爆破水介质对装药量的影响

为分析水介质对水中钢板爆破装药量的影响,理论推导了钢板背衬水介质条件下,钢板爆破最小装药量与空气中钢板爆破最小装药量的倍数关系:最小倍数关系为3.76。数值计算了钢板背衬空气介质和背衬水介质情形下钢板爆破的最小装药量,其倍数关系在3.5左右,与理论结果相近,表明钢板背衬水介质或空气介质是决定装药量大小的关键因素。数值计算了装药在空气介质中及水介质中钢板爆破爆轰产物对钢板的冲量大小,结果接近,表明水介质对炸药爆轰产物的约束作用是影响水中钢板装药量的次要因素。     

SPH 方法在聚能装药射流三维数值模拟中的应用

采用有限元软件LS-DYNA中的SPH 算法实现聚能装药射流形成过程的三维数值模拟。将SPH方法和FEM 方法与理论计算结果相比较。研究结果表明:SPH 数值模拟计算过程十分稳定,避免了有限元数值模拟过程中的网格扭曲、缠绕和物质穿透等问题,而且计算精度比有限元方法更高;采用SPH 方法计算的射流速度、射流长度与有限元计算结果和理论计算结果的误差均小于5%,因此该方法对于模拟诸如聚能装药等多介质、大变形问题十分有效;初始相邻粒子数N 的最佳取值范围为600~1800,在该范围内计算结果的误差小于3%,且计算效率高。     

基于SPH方法的聚能射流侵彻混凝土靶板数值模拟

在完全变光滑长度SPH(smoothed particle hydrodynamics)方法的基础上,利用F.Ott等提出的修正SPH方法处理在求解多介质大密度问题时的数值不稳定性问题,运用Holmquist-Johnson-Cook本构模型处理混凝土在冲击载荷下的变形和损伤问题,对聚能装药射流侵彻混凝土靶板的过程进行了数值模拟,同时利用LS-DYNA非线性有限元程序进行对比,分析了2种方法得到的混凝土von Mises应力变化、射流头部特定节点处的速度变化及裂纹演变,验证了SPH方法的准确性。分析了另外2种不同尺寸的靶板在射流侵彻作用下的破坏形式,结果符合射流侵彻物理规律,表明该方法适合模拟聚爆炸与冲击等大变形破坏等问题。     

水下爆炸近场峰值压力的数值模拟

为了研究水下爆炸近场内的压力状态,使用SPH (smoothed particle hydrodynamics)方法,采用C-J爆轰模型,对水下爆炸过程进行了数值模拟。通过与峰值压力规律和中场内经验公式的比较,验证了程序的可靠性。对水下爆炸过程进行了波系分析,与不同维数水下爆炸的数值模拟结果进行了对比研究。结果表明:比距离R/a=6是波形变化的一个分界点,在R/a<6的近场范围内,峰值压力的拟合分为两段更合适。另外,对数值结果的ln Pm-ln(R/a)曲线进行了分段幂次拟合,得到了与数值模拟结果非常吻合的拟合曲线。     

SPH方法Delaunay三角刨分与自由液面重构

光滑粒子法(SPH)作为一种拉格朗日型无网格方法,兼具欧拉网格方法和拉格朗日网格方法的优势,已经成功应用于科学和工程的众多领域。SPH方法后处理一般基于无规则分布的粒子,不如网格类方法后处理简便、直接。另外,SPH方法模拟自由液面流动等问题时,通过粒子位置难以重构自由液面的准确位置。发展一种基于Delaunay三角刨分的SPH后处理方法,即先基于SPH粒子位置利用Delaunay三角刨分建立三角网格,然后将粒子信息转化成网格单元/节点信息,从而可以在三角网格上进行后处理,实现基于网格方法的后处理功能,并可以在三角网格上直接提取或重构自由液面。将本文的方法应用到液滴碰撞和溃坝流SPH模拟结果的后处理中,得到了非常好的结果,表明本文的方法有效可靠。     

A consistent incompressible SPH method for internal flows with fixed and moving boundaries

An improved incompressible smoothed particle hydrodynamics (ISPH) method is presented, which employs first‐order consistent discretization schemes both for the first‐order and second‐order spatial derivatives. A recently introduced wall boundary condition is implemented in the context of ISPH method, which does not rely on using dummy particles and, as a result, can be applied more efficiently and with less computational complexity. To assess the accuracy and computational efficiency of this improved ISPH method, a number of two‐dimensional incompressible laminar internal flow benchmark problems are solved and the results are compared with available analytical solutions and numerical data. It is shown that using smaller smoothing lengths, the proposed method can provide desirable accuracies with relatively less computational cost for two‐dimensional problems. Copyright © 2015 John Wiley & Sons, Ltd.     

A coupled WC-TL SPH method for simulation of hydroelastic problems

A coupled weakly compressible (WC) and total Lagrangian (TL) smoothed particle hydrodynamics (SPH) method is developed for simulating hydroelastic problems. The fluid phase is simulated using WCSPH method, while the structural dynamics are solved using TLSPH method. Fluid and solid components of the method are validated separately. A sloshing water tank problem is solved to test the WCSPH method while oscillation of a thin plate and large deformation of a cantilever beam are simulated to test the TLSPH method. After validating each component, the coupled WC-TL SPH scheme is used to simulate two benchmark hydroelastic problems. The first test case shows the evolution of water column with an elastic boundary gate, and the second one investigates the breaking water column impact on elastic structures. The agreement between WC-TL SPH results and literature data shows the ability of the proposed method in simulating hydroelastic phenomena.     

锥形长药柱水下爆炸冲击波参数计算方法

为了计算锥形长药柱水下爆炸冲击波压力,以及研究长脉宽冲击波的传输特性,基于叠加原理建立了冲击波压力-时间曲线的计算方法,通过实验验证了该方法的有效性,在此基础上分析了锥形长药柱不同方位冲击波压力的分布规律。研究结果表明:锥形长药柱产生的冲击波压力具有各向异性,在起爆端一侧形成的是具有厚波头特征的低幅值长脉宽冲击波,在装药径向形成的是接近指数衰减的高幅值冲击波,而在远离起爆端的冲击波压力幅值和脉宽则介于前两者之间。锥形长药柱与球形装药冲击波分布的差异是由于装药形状和起爆方式的改变所导致的,由于装药不同部位起爆的时间差,导致水下爆炸冲击波在不同位置的叠加效果存在明显差异,药柱周围流场中形成的冲击波压力具有方向性。利用提出的计算方法得到的计算结果与实验结果和数值模拟结果吻合较好,研究结果可为锥形长药柱水下爆炸冲击波威力场和毁伤评估提供参考和依据。     

水下舷侧多层防护隔舱接触爆炸毁伤载荷特性分析

为探讨水下多层防护隔舱结构设计,以典型三舱式结构为对象,利用Dytran软件分析了水下接触爆炸下舷侧多层防护隔舱中膨胀空舱内的毁伤载荷特性,得到了载荷的简化模型,并拟合出膨胀舱压力载荷脉动平稳阶段准静态气压值的计算公式。结果表明,膨胀空舱内的毁伤载荷特性在时间尺度上可分为气团膨胀扩散阶段和脉动平稳两个阶段;在空间分布上,主要分为正反射区和马赫反射区,正反射区作用载荷由初始瞬态脉冲载荷和后续逐渐衰减的准静态气压载荷叠加而成,马赫反射区作用载荷则以准静态气压为主。     

Coupling finite difference method with finite particle method for modeling viscous incompressible flows

A hybrid approach to couple finite difference method (FDM) with finite particle method (FPM) (ie, FDM-FPM) is developed to simulate viscous incompressible flows. FDM is a grid-based method that is convenient for implementing multiple or adaptive resolutions and is computationally efficient. FPM is an improved smoothed particle hydrodynamics (SPH), which is widely used in modeling fluid flows with free surfaces and complex boundaries. The proposed FDM-FPM leverages their advantages and is appealing in modeling viscous incompressible flows to balance accuracy and efficiency. In order to exchange the interface information between FDM and FPM for achieving consistency, stability, and convergence, a transition region is created in the particle region to maintain the stability of the interface between two methods. The mass flux algorithm is defined to control the particle creation and deletion. The mass is updated by N-S equations instead of the interpolation. In order to allow information exchange, an overlapping zone is defined near the interface. The information of overlapping zone is obtained by an FPM-type interpolation. Taylor-Green vortices and lid-driven shear cavity flows are simulated to test the accuracy and the conservation of the FDM-FPM hybrid approach. The standing waves and flows around NACA airfoils are further simulated to test the ability to deal with free surfaces and complex boundaries. The results show that FDM-FPM retains not only the high efficiency of FDM with multiple resolutions but also the ability of FPM in modeling free surfaces and complex boundaries.     

近自由面水下爆炸冲击载荷特性三维数值模拟

基于三维SPH 方法,对传统链表搜索算法进行了变光滑长度改进,并提出了具有较好稳定性的多相物质交界面的处理方法,模拟了三维无限域水下爆炸问题,验证了改进的三维SPH 方法模拟水下爆炸问题的可行性和有效性。在此基础上,建立了水下爆炸三维数值模型,模拟了近自由面水下爆炸过程,研究了冲击波传播特征、自由面下压力场和能量场特性以及水柱的产生过程。结果表明:自由面可将冲击波压力峰值和压力冲量最大衰减到1/3和1/7;爆深的增加会导致压力比和冲量比的等值柱面曲率变小,产生的水柱也逐渐由破碎的喷柱向高而窄的水冢过渡。     

超高速碰撞相似律的数值模拟验证

在量纲一分析的基础上,导出了超高速碰撞模拟中的相似律表达式,并利用光滑粒子流体动力学方法进行了数值模拟验证,结果表明,符合超高速碰撞相似律的模型在碰撞过程模拟中具有较好的相似性.     

An SPH model for free surface flows with moving rigid objects

This paper presents a computational model for free surface flows interacting with moving rigid bodies. The model is based on the SPH method, which is a popular meshfree, Lagrangian particle method and can naturally treat large flow deformation and moving features without any interface/surface capture or tracking algorithm. Fluid particles are used to model the free surface flows which are governed by Navier–Stokes equations, and solid particles are used to model the dynamic movement (translation and rotation) of moving rigid objects. The interaction of the neighboring fluid and solid particles renders the fluid–solid interaction and the non‐slip solid boundary conditions. The SPH method is improved with corrections on the SPH kernel and kernel gradients, enhancement of solid boundary condition, and implementation of Reynolds‐averaged Navier–Stokes turbulence model. Three numerical examples including the water exit of a cylinder, the sinking of a submerged cylinder and the complicated motion of an elliptical cylinder near free surface are provided. The obtained numerical results show good agreement with results from other sources and clearly demonstrate the effectiveness of the presented meshfree particle model in modeling free surface flows with moving objects. Copyright © 2013 John Wiley & Sons, Ltd.     

近水面水下爆炸二维Level-set数值模拟

水下爆炸是一个多介质、动边界、瞬态非线性过程,捕捉介质之间交界面的变化是数值模拟的一个难点.本文采用Level-set方法来描述水下爆炸气体产物和流体交界面以及自由表面变化,应用TVD (Total Variation Diminishing) 计算技术求解Level-set流场,首先建立了近水面水下爆炸的二维数值方法,然后,将该方法推广到流场内有刚性结构的情况,考虑了冲击波和刚性结构物的相互作用.为了模拟无限边界流场问题,引进了Thompson建立的无反射边界条件.     

含液颗粒材料液固耦合分析的离散颗粒模型及特征线SPH法

对含液颗粒材料流固耦合分析建议了一个基于离散颗粒模型与特征线SPH法的显式拉格朗日-欧拉无网格方案。在已有的用以模拟固体颗粒集合体的离散颗粒模型[1]基础上,将颗粒间间隙内的流体模型化为连续介质,对其提出并推导了基于特征线的SPH法。数值例题显示了所建议方案在模拟颗粒材料与间隙流相互作用的能力和性能以及间隙流体对颗粒结构承载能力及变形的影响。     

炸药水中爆炸冲击因子的新型计算方法

针对水中爆炸冲击因子在近场范围内的一些不足,利用水中爆炸冲击波的最大峰值压力与正相冲量的乘积推导了冲击因子的表达式。通过水中爆炸实验,得到了几种典型炸药的冲击波参数及其相似方程。利用该公式计算了水中爆炸冲击因子及其装药指数,并与基于平面波的水下爆炸冲击因子进行了对比。结果表明：冲击因子中的装药指数n＝0.5不仅适合所有以TNT为基本组分的炸药,也适合于RDX、HMX基的炸药。在修正冲击波形状的基础上,由峰值压力与冲量的乘积推导的冲击因子计算公式,从冲击波的毁伤作用的角度表述了水中爆炸冲击因子的物理意义,在计算近场冲击因子时具有更高的准确性。

     

An improved KGF‐SPH with a novel discrete scheme of Laplacian operator for viscous incompressible fluid flows

The kernel gradient free (KGF) smoothed particle hydrodynamics (SPH) method is a modified finite particle method (FPM) which has higher order accuracy than the conventional SPH method. In KGF‐SPH, no kernel gradient is required in the whole computation, and this leads to good flexibility in the selection of smoothing functions and it is also associated with a symmetric corrective matrix. When modeling viscous incompressible flows with SPH, FPM or KGF‐SPH, it is usual to approximate the Laplacian term with nested approximation on velocity, and this may introduce numerical errors from the nested approximation, and also cause difficulties in dealing with boundary conditions. In this paper, an improved KGF‐SPH method is presented for modeling viscous, incompressible fluid flows with a novel discrete scheme of Laplacian operator. The improved KGF‐SPH method avoids nested approximation of first order derivatives, and keeps the good feature of ‘kernel gradient free’. The two‐dimensional incompressible fluid flow of shear cavity, both in Euler frame and Lagrangian frame, are simulated by SPH, FPM, the original KGF‐SPH and improved KGF‐SPH. The numerical results show that the improved KGF‐SPH with the novel discrete scheme of Laplacian operator are more accurate than SPH, and more stable than FPM and the original KGF‐SPH. Copyright © 2015 John Wiley & Sons, Ltd.     

球对称形式物质点法及其在水下爆炸中的应用

利用物质点法求解三维远场水下爆炸冲击响应问题时,爆炸冲击波到达结构物之前传播过程的计算会消耗大量的计算资源,影响求解效率。针对这一问题,并考虑到水下爆炸冲击波在自由场中的传播特点,提出了一维球对称形式的物质点法,对球形炸药水下爆炸过程进行了数值模拟,并与Cole公式以及DYNA计算结果进行了比较,结果吻合较好,验证了一维球对称形式物质点法的正确性。在此基础上,提出了基于物质点法的重映射算法,将爆炸冲击波在自由场中的传播过程在一维球对称模型中进行计算,并将计算结果映射到三维模型中,以便继续完成计算过程,有效避免了计算资源在冲击波传播过程计算上的消耗。     

基于SPH方法模拟30 mm线膛炮波纹罩压垮过程的力学参数研究

为研究高旋转对30 mm聚能装药破甲作用的影响机理及自旋补偿原理,采用LS-DYNA有限元软件中的SPH方法模拟30 mm线膛炮波纹罩的压垮过程,得到粒子的实际运动可分解成向心运动与绕中心圆周切线运动,提出压垮过程的4个阶段：压垮前期、缓冲期、波纹槽区域粒子速度增大期和中心粒子相互作用期。射流形成层沿逆时针方向旋转,而形成杵体的材料以相反方向旋转。结果表明：波纹罩特殊设计可以补偿旋转扰动对30 mm聚能装药侵彻作用的负面影响。

     

修正的虚拟介质方法用于水下爆炸冲击薄板的模拟

近期发展的修正的虚拟介质方法(MGFM)已经成功应用于求解多介质流动问题.本文研究了近体水下爆炸中强激波对薄板冲击的演变及薄板的动力响应过程.为了真实地考虑不同介质在界面处的非线性相互作用,本文将MGFM推广应用于处理流体与弹性薄板的相互作用.研究发现尽管流体和薄板结构的模拟基于各自不同的求解方法,但是用修正的虚拟介质...