汇编语言的单元测试技术研究

汇编语言具有非结构化、非标准化、硬件相关性高、灵活性极大等特性,单元测试难度较大.针对汇编语言的特点,论述了汇编语言单元测试过程中功能测试、结构覆盖率测试和性能测试的方法和步骤.     

WSEIAC模型的中远程空空导弹武器系统效能分析

依据中远程空空导弹武器平台系统的战术指标,建立了中远程空空导弹武器平台系统的效能评价体系.对ADC扩展模型中的人为因素K进行了修正,在能力矩阵C中增加对载机生存能力和信息支持能力的体现.在此基础上给出了修正扩展模型下的系统效能,计算了在原始ADC模型下的系统效能,并对两种模型下的效能差异进行了比较.     

无源双基地雷达系统直达波抑制算法

无源双基地雷达系统目标时延和多普勒频移估计,一般采用直达波通道信号与目标回波通道信号作互模糊函数处理,通过搜索互模糊函数的峰值来检测目标。虽然直达波干扰信号的互模糊函数峰值出现在零时延和零多普勒频移处,但其能量远大于目标回波信号,导致信号检测噪声门限增高,旁瓣电平增大,从而淹没目标信号。利用矢量空间的最小二乘算法抑制目标通道中的直达波信号,针对计算速度问题,提出了改进算法。仿真结果表明,该算法能够明显抑制直达波信号,同时该算法也可以完成弱目标的检测,因而具有重要的应用意义。     

军用飞机综合效能/费用评估方法

军用飞机的效能与费用是两个相互制约的因素,对两者进行科学合理的综合评估,对于军用飞机的发展和使用有着很重要的意义。在分析综合效能/费用的基本评估指标基础上,提出了在军用飞机全寿命周期综合效能/费用评估指标,重点对作战使用阶段的最佳效能/费用进行评估分析,最后给出结论。     

《论语》军事言论的语言艺术

《论语》中的军事论述,是我国传统军事文化的重要组成部分。《论语》军事言论的主要语言艺术是：言简意赅;以言见人;实词和虚词的运用,特别是军事用语的使用;灵活多变的句式以及综合运用多种辞格。     

跨文化交际能力的培养与大学英语教学

由于国际交流的日益频繁,培养学生的综合语言运用能力,特别是跨文化交际能力,已经成为语言教学的最终目标。通过分析非英语专业学生跨文化交际能力的现状,提出了通过大学英语教学来培养学生跨文化交际能力的途径。     

防空体系反制网电攻击的UML与Petri网模型

网电攻击装备的出现,给传统防空体系带来全面严峻的新威胁。通过分析"舒特"系统,得到网电攻击3种典型作战样式:物理摧毁、电子攻击和网络攻击,分别从物理层次、能量层次和网络层次探索了防空体系反制网电攻击策略。为描述防空体系反制网电攻击的对策、作战结构、作战步骤等问题,分别建立了统一建模语言(UML)和Petri网模型,从理论上初步探索了防空体系反制网电攻击的对策,具有一定的理论与现实意义。     

城镇化对察布查尔县锡伯族语言发展的影响研究

随着经济发展和社会进步,城镇化也带来了一系列的问题,城镇化进程中的语言问题应当引起高度重视。本文在城镇化背景下,选取新疆察布查尔锡伯自治县的3个城镇区域为样本(爱新舍里镇、察布查尔镇、种羊场),调查城镇化给不同区域的锡伯族人的语言使用所带来的影响。通过数据分析,我们认为城镇化将扩大国家通用语的使用范围,增加国家通用语和锡伯语语言接触的深度,将进一步改变锡伯族的语言观念,城镇化的发展将增加锡伯族语言转用人群。最后提出城镇化与察布查尔县锡伯族语言和谐发展的对策,解决语言生活中的实际问题。     

The effect of al particle size on thermal decomposition,mechanical strength and sensitivity of Al/ZrH2/PTFE composite

To study the thermal decomposition of Al/ZrH2/PTFE with different Al particle size as well as mechanical strength and impact sensitivity under medium and low strain rates, molding-vacuum sintering was adopted to prepare four groups of power materials and cylindrical specimens with different Al particle size. The active decomposition temperature of ZrH2 was obtained by TG-DSC, and the quasi-static me-chanics/reaction characteristics as well as the impact sensitivity of the specimen were studied respec-tively by quasi-static compression and drop-hammer test. The results show that the yield strength of the material decreased with the increase of the Al particle size, while the compressive strength, failure strain and toughness increased first and then decreased, which reached the maximum values of 116.61 MPa, 191％, and 119.9 MJ/m respectively when the Al particle size is 12—14μm because of particle size grading. The specimens with the highest strength and toughness formed circumferential open cracks and reacted partly when pressed. Those with developmental cracks formed inside did not react. It is considered that fracture of specimens first triggered initial reaction between Al and PTFE to release an amount of heat. Then ZrH2 was activated and decomposed, and participated in subsequent reaction to generate ZrC. The impact sensitivity of the specimens decreased with the increase of Al particle size.     

Micromechanical simulation and experimental investigation of aluminum-based nanocomposites

Ceramic reinforced metal matrix nanocomposites are widely used in aerospace and auto industries due to their enhanced mechanical and physical properties. In this research, we investigate the mechanical properties of aluminum/Nano-silica composites through experiments and simulations. Aluminum/Nano-silica composite samples with different weight percentages of silica nanoparticles are prepared via powder metallurgy. In this method, Nano-silica and aluminum powders are mixed and compressed in a mold, followed by sintering at high temperatures. Uniaxial tensile testing of the nanocomposite samples shows that adding one percent of Nano-silica causes a considerable increase in mechanical properties of nanocomposite compared to pure aluminum. A computational micromechanical model, based on a representative volume element of aluminum/silica nanocomposite, is developed in a commercial finite element software. The model employs an elastoplastic material model along with a ductile damage model for aluminum matrix and linear elastic model for nano-silica particles. Via careful determination of model parameters from the experimental results of pure aluminum samples prepared by powder metallurgy, the proposed computational model has shown satisfactory agreement with experiments. The validated computational model can be used to perform a parametric study to optimize the micro-structure of nanocomposite for enhanced mechanical properties.