各向异性材料的有效弹性模量

在夹杂理论的基础上,采用用自洽法导出了含分布夹杂的各向异性弹性体的本构关系和有效弹性模量的细观力学表达式。本文得到的公式不仅可以处理含缺陷和损伤的材料的有效弹性模量,而且还可处理诸于纤维复合材料等各向异性材料的理论及有效弹性模量,从而为建立材料细观结构与宏观性能之间的关系提供了理论基础。     

自适应光学波前实时处理机结构设计

本文介绍的波前处理机是１．２ｍ望远镜自适应光学系统的关键部件之一,吞吐率高,延时小,是具有高速数据处理能力的实时处理系统。为满足系统的高速度性能,系统设计在实时性、并发性的基础上,将图象数据采集加入流水线,并对波前处理中自然存在的子任务作“去相关”’处理,建立了图象采集、斜率计算、波前复原间流水线操作。图象读出时间的利用及流水线的建立,大大减少了时延,降低了系统实时性要求。流水线处理与高度并行处理相结合,也是本处理机设计的一大特色。     

加权Fourier变换及其统计性质

提出了零均值平稳序列的加权Ｆｏｕｒｉｅｒ变换,讨论了其统计性质,给出了其数学期望与方差的收敛速度．     

有源干扰条件下基于NSGA-Ⅱ的雷达网优化部署方法

在有源干扰条件下,雷达网部署直接影响着防区内指挥信息系统的预警监测能力。由于防区内由分散于不同位置,且重要度不同的责任区组成的,那么实现全方位全纵深的预警能力,将是雷达网部署的重要方面。根据覆盖系数和重叠系数为主要优化目标,基于NSGA-Ⅱ算法进行多目标优化。首先定义了覆盖系数和全局重叠系数两个指标,尤其是全局重叠系数打破了以往重叠系数的概念,从全局出发引导雷达网优化部署;同时,提出基于NSGA-Ⅱ的多目标优化部署算法,采用诱导跳跃、基因到位、诱导交叉等候选解生成方式,保持种群多样性,提高算法收敛性。实验表明,部署优化算法耗时较低,不同干扰源部署态势使网络节点部署产生较大差异,多样的候选解生成方法明显提高了算法的收敛速度。     

震灾应急物资动态需求预测模型研究

为提高应急物资需求预测方法的实用性,同时考虑提前期和需求的不确定性,采用安全库存理论构建震灾应急物资动态需求预测模型,以观测得到的实际到货量、实际消耗量和实时剩余库存量等信息来动态预测当前时刻应急物资的需求量。应用算例表明,所建模型不仅能够准确反映需求量与被保障人员总数的正相关关系,而且还能实时体现被保障人员总数的变化情况。因此,该模型能够为震灾过程中应急物资需求量的确定提供科学决策依据,具有一定的实用价值和应用前景。     

类型学语境下的屋顶生态技术

作为建筑顶部的围护结构,屋顶是室外自然环境与室内进行能量交换的重要途径,也是影响建筑能耗的主要因素之一。通过引入类型学的研究方法,提出将自然能量的交换作为屋顶生态技术的原型,挖掘出"阻止"、"过滤"和"导入"3种技术类型。结合具体工程案例,对3种技术类型的创新性策略进行深入分析与探讨,归纳总结得出较系统和完整的技术类型结论,从而为绿色建筑设计与技术选择提供参考。     

舰炮对岸无瞄准点射击诸元计算模型

介绍了一种新的舰炮射击方法--舰炮对岸无瞄准点射击概念、原理,建立了目标相对坐标计算模型、观测舰位坐标转换模型,解决了水面舰艇舰炮对岸上目标射击诸元计算问题.舰炮对岸无瞄准点射击,解决了水面舰艇全天候对岸应召射击问题,显著提高了舰炮对岸打击能力和战术使用的灵活性.     

Simulation of the plasticizing behavior of composite modified double-base (CMDB) propellant in grooved calendar based on adaptive grid technology

The frequent occurrence of safety accidents during the calendering process is caused by the flammable and explosive properties of composite modified double-base (CMDB) propellant. Optimization of process parameters with the aid of fluid simulation technology could effectively ensure the safety of the calendering process. To improve the accuracy of the simulation results, material parameters and model structure were corrected based on actual conditions, and adaptive grid technology was applied in the local mesh refinement. In addition, the rheological behavior, motion trajectories and heat transfer mechanisms of CMDB propellant slurry were studied with different gaps, rotational rates and temperatures of two rollers. The results indicated that the refined mesh could significantly improve the contour clarity of boundaries and simulate the characteristics of CMDB propellant slurry reflux movement caused by the convergent flow near the outlet. Compared with the gap, the increased rotational rate of roller could promote the reflux movement and intensify the shear flow of slurry inside the flow region by viscous shear dragging. Meanwhile, under the synergistic effect of contact heat transfer as well as convective heat exchange, heat accumulated near the outlet and diffused along the reflux movement, which led to the countercurrent heat dissipation behavior of CMDB propellant slurry. The plasticizing mechanism of slurry and the safety of calendering under different conditions were explored, which provided theoretical guidance and reference data for the optimization of calendering process conditions. Based on the simulation results, the safety of the CMDB propellant calendering process could be significantly improved with a few tests conducted during a short research and development cycle.     

Improving the damage potential of W-Zr reactive structure material under extreme loading condition

Projectiles made of reactive structure materials(RSM)can damage the target with not only kinetic but also chemical energy,but the enhanced damage potential of RSM may become compromised if extreme loading condition disintegrates the projectile before the target is reached.In this work,a ductile coating of Ni was introduced to a tungsten-zirconium(W-Zr)alloy,a typical brittle RSM,to preserve the damage potential of the projectile.Detonation driving tests were carried out with X-ray photography and gun-powder deflagration driving tests were carried out with high-speed photography for the coated and uncoated RSM samples,respectively.The craters on the witness target were analyzed by scanning electron microscopy and X-ray diffraction.The Ni coating was found to effectively preserve the damage potential of the W-Zr alloy under extreme loading conditions,whereas the uncoated sample fractured and ignited before impacting the target in both detonation and deflagration driving.The crack propa-gation between the reactively brittle core and the ductile coating was analyzed based on the crack arrest theory to mechanistically demonstrate how the coating improves the structural integrity and preserves the damage potential of the projectile.Specifically,the Ni coating envelops the W-Zr core until the coated sphere penetrates the target,and the coating is then eroded and worn to release the reactive core for the projectile to damage the target more intensively.     

Experimental investigation on anti-penetration performance of polyurea-coated ASTM1045 steel plate subjected to projectile impact

In this study, the anti-penetration performance of polyurea/ASTM1405-steel composite plate subjected to high velocity projectile was analyzed. Two kinds of modified polyurea material (AMMT-053 and AMMT-055) were selected and a ballistic impact testing system including speed measuring target system and high-speed camera was designed. This experiment was conducted with a rifle and 5.8 mm projectile to explore the effects by the polyurea coating thickness, the polyurea coating position and the glass-fiber cloth on the anti-penetration performance of polyurea/ASTM1405-steel composite plate. The result showed that the effects of polyurea coating position were different between two types of polyurea, and that the effects of glass-fiber position were disparate between two types of polyurea as well. For AMMT-053 polyurea material, it was better to be on front face than on rear face; whereas for AMMT-055 pol-yurea, it was better to be on rear surface although the difference was very subtle. Additionally, formulas had been given to describe the relationship between the effectiveness of polyurea and the thickness of polyurea coating. In general, AMMT-055 had better anti-penetration performance than AMMT-053. Furthermore, five typical damage modes including self-healing, crack, local bulge, spallation and local fragmentation were defined and the failure mechanism was analyzed with the results of SHPB test. Additionally, the bonding strength played an important role in the anti-penetration performance of polyurea/steel composite plate.