从孙子兵法角度审视目标中心战的制胜机制

基于体系对抗的战争特点和我军作战实际情况,提出的目标中心战是现代作战思想的一次凝练及升华。它的制胜机制表现为三个层面：通过选择关键作战目标,提升体系对抗效能;通过影响目标系统功能,谋求局部对抗优势;通过融合体系要素,提高整体对抗能力。     

湖南军民融合机制建设的现状、问题与对策

构建科学、完善的军民融合机制是推动军民融合由初步融合向深度融合的突破与跃升的关键。就现状来看,湖南省军民融合前期基础较为扎实,思想观念仍相对滞后;配套机制建设初见成效,协调与运行机制尚不完善;地方纲领性政策基本形成,法规与标准体系有待健全。要实现湖南省军民深度融合的目标,需进一步更新推动军民融合发展的思想观念,完善保障军需、兼顾民用的协调与运行机制,健全有利于军民融合发展的约束与保障机制。     

D0影响亚硝酸型SND工艺的机理探讨

亚硝酸型SND污水生物脱氮新工艺因兼具短程硝化和同时硝化反硝化工艺的优势而具有很强的开发潜力。在介绍亚硝酸型SND工艺特点之后,着重从微环境理论、微生物特性及化学计量学等角度较为深入地探讨了溶解氧浓度(DO)影响亚硝酸型SND工艺脱氮效果的机理,从理论上进一步证实了DO对于亚硝酸型SND工艺的重要性。     

实时高效邮件过滤系统设计

介绍了一种基于内容的电子邮件过滤系统的设计.该系统是采用有限自动机技术对电子邮件的内容进行扫描,达到实时高效地对不合法的电子邮件进行过滤的目的.     

论军队党的建设科学化长效机制的构建

军队党的建设科学化长效机制的构建,是一项复杂的系统工程,也是提高军队党的建设科学化水平的创新工程。首先,在理念上要有正确的思想方法。其次,要充分重视多路径的制度建设．主要包括完善学习和教育的保障机制、健全干部选拔任用的科学机制、建构权力运行的监督机制等。最后,在实践中要抓好各项制度的落实工作,使军队党的建设始终保持蓬勃的生机与活力,为推动部队现代化建设科学发展提供坚强的保证。     

基于齐次坐标的微动建模与微多普勒特征分析

针对目标微动数学模型表达不统一的问题,引入计算机图形学中的齐次坐标表示方法,给出了三维坐标系和旋转变换的齐次变换矩阵描述,推导了自旋、锥旋、进动和章动目标微动模型的通用矩阵表达.并分析了目标回波频移的组成,得到了微多普勒的理论表达式.微动回波Gabor变换时频图与微多普勒理论值的仿真结果表明,通用的矩阵表达可以简明且准确地描述目标的微动.     

某型火箭弹引信惯性保险机构可靠性改进设计

针对某型火箭弹引信在靶场试验过程中出现的瞎火现象,对其惯性保险机构进行了改进设计,并通过激活击针簧抗力分析和钟表机构走动时间变化分析对惯性保险机构的作用可靠性及安全性进行了验证。实践证明,该方法在大大提高作用可靠性的基础上降低了工艺难度,具有良好的军事经济效益。     

陆军作战复杂系统ABMS机理研究

研究陆军作战复杂系统,需要解决两个不可回避的基本问题。一是怎样利用复杂性理论研究陆军作战系统的复杂性,即怎样借鉴复杂性理论构建复杂性思维模式。要解决这个问题,首先必须弄清复杂性理论概念的核心原理。二是在复杂性思维模式下,怎样进行陆军作战复杂系统的ABMS。要解决这个问题,首先必须弄清陆军作战复杂系统ABMS的机理所在。就这两个问题,在研究复杂性理论概念核心原理的基础上,构建了复杂性思维模式框架——复杂性分析二维结构,并由此探索了陆军作战复杂系统ABMS的机理:二维结构、"四个要素"、基本过程和陆战Agent模型框架,为陆军作战复杂系统的ABMS奠定了基础。     

Effects of total pressures and equivalence ratios on kerosene/air rotating detonation engines using a paralleling CE/SE method

In this paper, the kerosene/air rotating detonation engines(RDE) are numerically investigated, and the emphasis is laid on the effects of total pressures and equivalence ratios on the operation characteristics of RDE including the initiation, instabilities, and propulsive performance. A hybrid MPI + OpenMP parallel computing model is applied and it is proved to be able to obtain a more effective parallel performance on high performance computing(HPC) systems. A series of cases with the total pressure of 1 MPa, 1.5 MPa, 2 MPa, and the equivalence ratio of 0.9, 1, 1.4 are simulated. On one hand, the total pressure shows a significant impact on the instabilities of rotating detonation waves. The instability phenomenon is observed in cases with low total pressure (1 MPa) and weakened with the increase of the total pressure. The total pressure has a small impact on the detonation wave velocity and the specific impulse. On the other hand, the equivalence ratio shows a negligible influence on the instabilities, while it affects the ignition process and accounts for the detonation velocity deficit. It is more difficult to initiate rotating detonation waves directly in the lean fuel operation condition. Little difference was observed in the thrust with different equivalence ratios of 0.9, 1, and 1.4. The highest specific impulse was obtained in the lean fuel cases, which is around 2700 s. The findings could provide insights into the understanding of the operation characteristics of kerosene/air RDE.     

Gas metal arc welding of high nitrogen stainless steel with Ar-N2-O2 ternary shielding gas

High nitrogen stainless steel with nitrogen content of 0.75％was welded by gas metal arc welding with Ar—N2-O2 ternary shielding gas. The effect of the ternary shielding gas on the retention and improvement of nitrogen content in the weld was identified. Surfacing test was conducted first to compare the ability of O2 and CO2 in prompting nitrogen dissolution. The nitrogen content of the surfacing metal with O2 is slightly higher than CO2. And then Ar—N2-O2 shielding gas was applied to weld high nitrogen stainless steel. After using N2-containing shielding gas, the nitrogen content of the weld was improved by 0.1 wt％. As N2 continued to increase, the increment of nitrogen content was not obvious, but the ferrite decreased from the top to the bottom. When the proportion of N2 reached 20％, a full austenitic weld was obtained and the tensile strength was improved by 8.7％. Combined with the results of surfacing test and welding test, it is concluded that the main effect of N2 is to inhibit the escape of nitrogen and suppress the ni-trogen diffusion from bottom to the top in the molten pool.