Partial penetration of annular grooved projectiles impacting ductile metal targets

Changing and optimizing the projectile nose shape is an important way to achieve specific ballistic performance. One special ballistic performance is the embedding effect, which can achieve a delayed high-explosive reaction on the target surface. This embedding effect includes a rebound phase that is significantly different from the traditional penetration process. To better study embedment behavior, this study proposed a novel nose shape called an annular grooved projectile and defined its interaction process with the ductile metal plate as partial penetration. Specifically, we conducted a series of low-velocity-ballistic tests in which these steel projectiles were used to strike 16-mm-thick target plates made with 2024-O aluminum alloy. We observed the dynamic evolution characteristics of this aluminum alloy near the impact craters and analyzed these characteristics by corresponding cross-sectional views and numerical simulations. The results indicated that the penetration resistance had a brief decrease that was influenced by its groove structure, but then it increased significantly-that is, the fluctuation of penetration resistance was affected by the irregular nose shape. Moreover, we visualized the distribution of the material in the groove and its inflow process through the rheology lines in microscopic tests and the highlighted mesh lines in simulations. The combination of these phenomena revealed the embed-ment mechanism of the annular grooved projectile and optimized the design of the groove shape to achieve a more firm embedment performance. The embedment was achieved primarily by the target material filled in the groove structure. Therefore, preventing the shear failure that occurred on the filling material was key to achieving this embedding effect.     

Pressure relief of underground ammunition storage under missile accidental ignition

Safety of underground ammunition storage is an important issue, especially during the accidental ignition of missiles. This work investigates the pressure and temperature distribution of the multi-layer underground ammunition storage with a pressure relief duct during the accidental ignition process of the missile. A large-scale experiment was carried out using a multi-layered restricted space with a pressure relief duct to simulate the underground ammunition store and a solid rocket motor to simulate the accidental ignition of the missile. The results show that when the motor gas mass flow increased by 5.6 times, the maximum pressure of the ammunition storage increased by 5.87 times. At a certain motor flow rate, when the pressure relief exhaust area at the end of the relief duct was reduced by 1/2, the maximum pressure on the first layer did not change. But the rate of pressure relief was reduced and the time delayed for the pressure of ammunition store to drop to zero. In this experiment, when the motor ignition position was located in to the third layer ammunition chamber, the maximum pressure was reduced by 32.9％ and also reduced the rate of change of pressure. In addition, for the experimental conditions, the theoretical analysis of the pressure relief of the ammunition storage is given by a simplified model. Based on the findings, some suggestions to the safety protection design of ammunition store are proposed.     

基于遗传算法的航空兵出动架次计算方法

针对航空兵出动架次计算问题,基于资源受限项目调度理论进行问题描述和建模,以给定兵力对目标任务的最大出动架次为效能指标,分析影响因素和约束条件,建立了问题数学模型.根据问题模型特点,采用遗传算法进行求解,针对染色体编码问题,设计了一种扩展任务列表编码方法;针对初始解集求解问题,提出了一种基于优先规则的出动架次分配算法.并构建了航空兵出动架次计算仿真算例对问题模型和求解算法进行验证,实验结果表明,所提模型和算法能够有效求解大规模航空兵出动架次计算问题.     

陆战平台分布式综合模块化系统架构建模方法

分布式综合模块化系统架构,成为航空应用领域的主流架构和发展趋势.我国空军已进行了分布式综合模块化系统架构研究设计和仿真评估,但缺乏系统级的架构优劣评估.兵器领域已将综合模块化系统架构应用于型号项目中,但在分布式综合模块化架构方面,尚未在具体项目中应用.针对分布式综合模块化系统架构缺乏系统级评估手段的问题,提出一种陆战平台分布式综合模块化系统架构建模方法.根据系统架构评估需求,建立不同层级实体的模型及约束,分别对应陆战平台信息控制系统的业务层、操作系统分区层、模块层、子系统层、系统层;在层级划分的基础上,定义各层级模型的属性;通过对评估指标中的综合度、耦合度进行评估计算,对系统架构建模方法进行验证.系统架构建模方法为系统架构评估提供了一种参考.     

基于两阶段优化模型的海上横向补给规划研究

为研究海上横向补给过程,提高海上补给效率,对海上物资补给及舰船补给顺序进行了优化研究.通过分析横向补给的作业特点,将横向补给规划问题划分为单舰物资补给顺序规划与编队舰船补给顺序规划两阶段优化问题.在区分平、战时不同战场环境情况下,分别利用多智能体仿真模型与整数规划模型,对两阶段优化进行了实现,结果表明两阶段优化模型能够有效地优化海上横向补给方案.     

长坑道中防护门上的化爆冲击波压力研究

为了对坑道中的防护门抗化爆冲击波进行有效的设计,先需确切知道作用在防护门上的反射压力。首先基于Hopkinson比例定律,用LS-DYNA动力有限元软件模拟了常规炸药在坑道入口外爆炸情况下,长坑道中自由场冲击波峰值压力的衰减规律,并由此确定作用在防护门上的反射压力。计算结果与其他经验方法的预测结果进行了比较。可供防护门的设计及动力响应研究参考。     

面向提高分析效率的战场损伤分析（FMEA／DMEA）方法研究

战场损伤分析是战场抢修研究、准备和决策的基础。从装备战场损伤分析出发,针对目前战场损伤分析(FMEA/DMEA)中存在的过程复杂、内容较多和效率不高等问题,探讨了如何利用基础性损伤数据和已有分析案例为FMEA/DMEA提供数据支持,提高分析效率。     

十字梁控制系统的非奇异终端滑模控制

为了保证系统跟踪误差在有限时间内收敛到零,采用非奇异终端滑模控制方法设计十字梁系统的控制器.将十字梁系统3个通道之间的耦合因素和外界干扰影响视为不确定项,将十字梁系统模型转变为一种类解耦形式.设计了自适应算法分别调节3个通道的控制器参数,对不确定项进行估计和补偿,使得3个通道的控制器中不包含耦合因素,从而简化了控制器结构.仿真分析表明,所设计的3个通道的非奇异终端滑模控制器比前人设计的控制器具有跟踪速度更快、跟踪精度更高的优点.     

基于FLAMES和HLA的导弹分队作战仿真系统

研究了基于FLAMES和HLA导弹分队作战仿真。首先介绍了系统架构及工作流程,然后剖析了基于FLAMES和HLA进行导弹分队作战中的仿真实体之间的信息交互机制,最后探讨了基于FLAMES和HLA的开发过程,验证了基于FLAMES和HLA开发的导弹分队作战仿真的实用性,为以后分队作战智能化仿真研究提供借鉴。     

俯冲击顶弹道落角研究

采用俯冲击顶弹道时,为保证对目标的毁伤效果,要求导弹命中目标时具有较大的落角。为增大落角,分别研究了射程和弹道高度、转比点、比例导引系数以及可用法向过载等因素对落角的影响,并进一步提出了提高落角的措施。仿真和引证表明,通过采取调高发射角、加入推力矢量控制以及改进末制导律等措施可有效提高导弹落角。