爆轰波斜冲击作用下破片飞散特性研究

为研究非对称结构战斗部的破片飞散特性,利用斜激波理论对爆轰波作用于壳体表面的过程进行研究,并利用自由面速度倍增定律对波在自由面反射后质点速度的计算进行简化,得到了破片飞散角的计算模型。利用D型战斗部试验数据对计算模型进行验证,结果表明,斜激波理论计算得到的破片飞散与试验结果吻合很好;当入射角较小时,壳体飞散角与入射角成线性关系。     

轴向和环向双聚焦破片战斗部壳体形状设计

破片定向聚焦是战斗部实现高效毁伤的重要途径。基于Shapiro公式和壳体微元分析方法,提出一种轴向和环向双聚焦破片战斗部壳体形状设计方法,可根据需要的聚焦程度设计对应的壳体形状,利用LS-DYNA中ALE算法对设计的壳体飞散过程进行数值模拟,并考察了壳体形状对破片分布的影响。结果表明:设计的壳体可实现破片在轴向和环向2个方向聚焦飞散,从而获得较大的破片密度增益。     

引信传爆管破片参数研究

理论分析传爆管破片的数质量分布和最大质量的计算模型,采用水箱法进行了部分引信传爆管破碎性试验。试验数据及理论分析结果表明：计算榴弹破片数质量分布的Mott公式并不适用于传爆管类非榴弹破片的计算,因此利用试验所得数据对西德最大破片质量公式进行了修正。修正后的公式对丙型引信传爆管破片最大质量的计算结果与试验数据较为吻合。     

不同材料壳体装药在空气中爆炸威力试验研究

为评估装药壳体材料对爆炸毁伤威力的影响,对裸装药、碳纤维复合壳体、钢壳体装药在空气中的爆炸破坏效应进行了试验研究,试验获得了3种装药冲击波超压曲线.试验结果表明,同样装药情况下,裸装药爆炸冲击渡超压大于带壳装药,碳纤维复合材料壳体装药爆炸产生的冲击波超压相对钢壳体装药高,且不会产生破片对远距离目标造成破坏;而钢壳体装药爆炸产生的破片对远距离目标具有一定的杀伤效应.     

杀伤战斗部破片定向飞散特性研究

研究了钢预制破片壳体在四种装药爆轰驱动下的飞散特性。求得了使破片飞行路径呈平行型的预制破片壳体的临界半径及相应的破片初始速度。     

双球破片冲击柱壳装药的临界起爆条件

为了研究导弹战斗部(柱壳装药)在破片场中的累积毁伤问题,在现有单破片起爆平板装药的Jacobs-Roslund经验准则的基础上,分别建立了考虑破片尺寸、破片撞击角度、柱壳装药的装药半径和壳体厚度的单球破片、双球破片冲击柱壳装药临界起爆条件的工程分析模型.该模型计算结果与数值模拟结果和现有试验结果相吻,证明利用该模型能较...     

G45钢破片对中大口径弹体侵彻仿真分析北大核心

为了研究不同质量G45钢破片对中大口径弹药壳体侵彻效应,利用有限元分析软件ANSYS/LS-DYNA建立破片侵彻壳体模型。将弹药壳体通过等效公式换为Q235钢板,开展了在不同速度下,不同质量G45钢破片侵彻等效靶板Q235钢数值模拟仿真。仿真分析结果表明:相同质量下,G45钢破片撞击靶板侵彻深度与侵彻直径随着速度增加呈现递增趋势;得到了4.7 g,9.8 g小质量G45钢破片在800~1800 m/s速度范围内无法有效穿透中大口径弹体等效靶的结论;19.5 g G45钢破片侵彻20 mm的中大口径弹体等效靶的极限穿透速度范围在1200~1400 m/s之间。     

榴弹攻击下铝质结构抗爆能力的数值评估

在静爆试验的基础上,结合有限元数值方法对小口径(30 mm)燃烧榴弹舷侧接触爆炸攻击下铝质艇体结构的毁伤进行评估,着重分析了铝质艇体结构在小口径武器攻击下,弹体的攻击角度、弹体的初始侵彻速度以及爆炸产物等对艇体结构破损和毁伤范围的影响以及榴弹爆炸的破片效应.     

破片式战斗部空中爆炸下冲击波与破片先后作用的临界爆距研究

为探讨破片式战斗部空中爆炸下冲击波与破片的先后作用机制,通过分析冲击波和破片在空气中的运动规律,在考虑壳体对冲击波强度的影响下,建立了冲击波与破片先后作用临界爆距的理论计算模型,并进行了实例分析。实例分析验证了理论模型的合理性和有效性。在此基础上,对临界爆距的影响因素进行了讨论,发现战斗部装填系数、装药类型以及壳体厚度对临界爆距的影响较大,而破片质量和形状对临界爆距的影响较小;随装填系数、装药爆热和爆速、破片质量的增大,临界爆距值均相应减小;随着壳体厚度和破片形状不规则度的提高,临界爆距值相应增大。     

装备战场损伤试验布局设计仿真研究

装备战场损伤试验存在实施难度大,试验效率低的问题。为提高试验效能,采用AUTODYN,建立预制破片战斗部有限元仿真模型,模拟了战斗部爆炸及预制破片飞散的过程,仿真结果同实弹试验所采集数据基本吻合,验证了所用模拟方法的有效性。通过分析破片侵彻靶板的损伤规律,建立了球形破片撞击靶板损伤相图,结合破片飞散规律,建立了试验布局参考相图。研究结果表明:预制破片战斗部的爆炸及对装备的打击过程,能够通过数值仿真方式准确的进行模拟,从而大大减少试验费用;所建立的试验布局参考相图,能够为试验布局的设计和优化提供一定的参考。     

杀爆弹对主战坦克毁伤评估仿真

在全面分析杀爆弹对主战坦克毁伤效应的基础上,针对冲击波和破片对坦克外部件的毁伤,利用计算机仿真方法进行杀爆弹对主战坦克毁伤评估。利用射击线技术构建了杀爆弹对主战坦克毁伤评估模型;基于蒙特卡洛随机模拟试验法,开发了计算程序,进行了以破片杀伤为主的杀爆弹对主战坦克毁伤效应仿真评估,得到了车体命中破片数随炸点坐标变化规律,以及坦克整体毁伤概率随杀爆弹终点速度变化规律。研究结果为主战坦克目标易损性分析与毁伤评估提供了重要参考。     

Fracture mechanism of a cylindrical shell cut by circumferential detonation collision

The failure mechanism of a cylindrical shell cut into fragments by circumferential detonation collision was experimentally and numerically investigated. A self-designed detonation wave regulator was used to control the detonation and cut the shell. It was found that the self-designed regulator controlled the fragment shape. The macrostructure and micro-characteristics of fragments revealed that shear fracture was a prior mechanism, the shell fractured not only at the position of detonation collision, but the crack also penetrated the shell at the first contact position of the Chapmen-Jouguet (C-J) wave. The effects of groove number and outer layer thickness on the fracture behavior were tested by simulations. When the thickness of the outer layer was 5–18 mm, it has little effect on fragmentation of the shell, and shells all fractured at similar positions. The increase of the groove number reduced the fracture possibility of the first contact position of the C-J wave. When the groove number reached 7 with a 10 mm outer layer (1/4 model), the fracture only occurred at the position of detonation collision and the fragment width rebounded.     

Deformation,fragmentation and acceleration of a controlled fragmentation charge casing

Two different finite element software, LS-DYNA and Impetus, have been evaluated to test their ability to predict the deformation, fragmentation and acceleration of a controlled fragmentation charge casing. The general-purpose program LS-DYNA was used with a multi-material ALE formulation and a mass-preserving erosion criterion coupled to a Johnson-Cook fracture criterion. In the Impetus simulations, a third order Lagrangian element formulation was used for the casing and a node-splitting element erosion treatment coupled to a Cockcroft-Latham failure criterion was used to describe casing fracture. The high-explosive gases were described by a discrete particle formalism.In order to acquire data to validate our computational tools and constitutive models, a series of experiments have been performed using a laboratory charge with an internal grooved casing. In the test series, the charge geometry was fixed except that the groove depth were varied from very shallow to very deep resulting in different deformation patterns, fracture modes and terminal velocities. Various diagnostic tools captured the different stages of the expansion and fragmentation of the casing. A high-speed framing camera depicted the deformation pattern before fragmentation and was used to determine the moment when the casing failed. Three different complementary techniques were used to follow the acceleration of the fragments; a Photon Doppler velocimetry to determine the initial acceleration of the casing, double exposed radiographs to estimate the fragment velocity after break-up and a high-speed video to determine the terminal velocity of the fragment after leaving the fireball. In addition, the fragments were soft recovered in a set of sawdust pit tests and their final shape and weight were measured. A SEM was used to characterise the fracture surfaces and to determine the modus of fracture (tensile or shear failure).Comparisons to experiments show that both software can predict the change in deformation behaviour when the groove depth increases, from tangential necking for shallow grooves to radial punching for deep groves. Both software could also reasonable well predict the acceleration of the fragments, though both overestimates the terminal velocity for the charge with the deepest grooves.     

杀伤爆破弹在反坦克作战中的应用

分析了坦克装甲防护系统与反坦克武器系统的现状和发展趋势,提出了以杀伤爆破弹反坦克的思想,分析了杀伤爆破弹反坦克的可行性和毁伤机理,并通过试验进行了验证,提出了测试杀爆弹的破片和冲击波综合毁伤效果的方案,对我军反坦克武器的发展具有一定的借鉴意义。     

Experimental studies of explosion energy output with different igniter mass

For study the energy output law of cylindrical charge with shell induced by different input energies, four different black powder masses were selected to ignite the main charge. Fragmentation degree of the shell was qualitatively analyzed by the area of holes on the witness plate and the recovered fragments mass. Through theoretical analysis, established the functional relationship between the average mass of fragments and the relative energy output of warhead, obtained how the relative energy output of charge changed with different initial energy input. The results showed that the change of input energy could lead to obvious variation in fragment characteristics, and could also control the output of charge. When the igniter mass increases from 1.55 g to 5.00 g, the relative energy output of the charge increases by 26.28%. Excessive initial input energy will destroy the shell confine in advance, resulting in a decrease in the relative energy output of charge.     

Strain rate dependency and fragmentation pattern of expanding warheads

For the characterization of the behaviors of a metal material in events like expanding warheads, it is necessary to know its strength and ductility at high strain rates, around 104e105/s. The flyer plate impact testing produces the uniform stress and strain rates but the testing is expensive. The Taylor test is relatively inexpensive but produces non-uniform stress and strain fields, and the results are not so easily inferred for material modeling. In the split-Hopkinson bar(SHB), which may be used in compression, tension and torsion testing, the strain rates never exceeds 103/s. In the present work, we use the expanding ring test where the strain rate is 104e105/s. A streak camera is used to examine the expanding ring velocity, and a water tank is used to collect the fragments. The experimental results are compared with the numerical simulations using the hydrocodes AUTODYN, IMPETUS Afea and a regularized smooth particle(RSPH) software. The number of fragments increases with the increase in the expansion velocity of the rings. The number of fragments is similar to the experimental results. The RSPH software shows much the same results as the AUTODYN where the Lagrangian solver is used for the ring. The IMPETUS Afea solver shows a somewhat different fragmentation characteristic due to the node splitting algorithm that induces pronounced tensile splitting.     

Simulation of natural fragmentation of rings cut from warheads

Natural fragmentation of warheads that detonates causes the casing of the warhead to split into various sized fragments through shear or radial fractures depending on the toughness,density,and grain size of the material.The best known formula for the prediction of the size distribution is the Mott formulae,which is further examined by Grady and Kipp by investigating more carefully the statistical most random way of portioning a given area into a number of entities.We examine the fragmentation behavior of radially expanding steel rings cut from a 25 mm warhead by using an in house smooth particle hydrodynamic(SPH) simulation code called REGULUS.Experimental results were compared with numerical results applying varying particle size and stochastic fracture strain.The numerically obtained number of fragments was consistent with experimental results.Increasing expansion velocity of the rings increases the number of fragments.Statistical variation of the material parameters influences the fragment characteristics,especially for low expansion velocities.A least square regression fit to the cumulative number of fragments by applying a generalized Mott distribution shows that the shape parameter is around 4 for the rings,which is in contrast to the Mott distribution with a shape parameter of 1/2.For initially polar distributed particles,we see signs of a bimodal cumulative fragment distribution.Adding statistical variation in material parameters of the fracture model causes the velocity numerical solutions to become less sensitive to changes in resolution for Cartesian distributed particles.     

基于FPGA的IP分片重组的实现

针对计算机网络中常出现的IP分片问题,依据RFC791中描述的IP协议分片重组的基本原理,在＂快速判断分片属于哪个数据报＂和＂快速判断分片重组过程是否完成＂两方面提出了改进措施,并在FPGA平台上设计实现了IP分片重组硬件系统。该系统以包预处理器、资源管理器和DDR出入端口为核心单元,充分利用了FPGA的高速逻辑运算能力,实现了高速网络数据流中IP分片的重组,吞吐率最高可达1.2 Gbit/s。     

Experimental investigations on wear properties of Palm kernel reinforced composites for brake pad applications

The use of asbestos material is being avoided to manufacture the brake pads as it is harmful and toxic in nature. Further it leads to various health issues like asbestosis, mesothelioma and lung cancers. These brake pads can be replaced by natural fibers like Palm kernel (0–50%), Nile roses (0–15%) and Wheat (0–10%) with additives like aluminum oxide (5%–20%) and graphite powder (10%–35%). Phenolic resin of 35% is utilized as a binder. Particulated Nile roses are used to increase the friction coefficient and wheat powder is used to reduce the wear rate. Aluminum oxide and graphite are abrasive in nature. This helps to make brake pads with high friction co-efficient and less wear rate with low noise pollution. The wear of the proposed composites have been investigated at different speeds. Various tests like wear on pin-on-disc apparatus, hardness on the Rockwell hardness apparatus and oil absorption test have been conducted. Phenolic resin produces good bonding nature to fiber. Thus, Fibers found to have performed palatably among all commercial brake pads. The objective of the research indicates that Palm kernal shell could be a conceivable alternative for asbestos in friction coating materials.