就业问题对边防部队思想政治工作的影响

军人就业问题对边防部队思想政治工作有很大的影响 ,必须努力创造良好的军人就业条件 ,打牢部队“打得赢 ,不变质”思想政治工作的基础。     

潜在故障状态可测的一种故障检查模型

从系统的功能故障状态和潜在故障状态两方面讨论了故障检查模型,基于延迟时间模型推导了系统的期望可用度模型并对其适用性进行了讨论与验证。     

基于作战任务的多机种故障备件需求模型

通过分析战时故障备件的需求特点,对备件的工作时间进行讨论,改进了传统的单机故障备件需求模型。根据多机种协同作战任务的不同,引入备件工作运行比的概念,在考虑飞机是否战损的前提下,建立了基于作战任务的多机种故障备件需求模型。算例分析证明了模型的有效性。     

球类比赛对大学生球迷竞争意识的积极影响

通过各类球赛对大学生球迷竞争意识的积极影响研究与分析,球赛对不同大学生球迷的影响具差异性。大学生球迷对竞争意识认识不足,争取优胜的信念还有待提高,对外界事物的判断、认识不够准确,参与社会活动内容贫乏,形式单一,选择性少。随着年龄和学龄的增长,在生活与实践中的竞争意识得到进一步强化。球赛本身激烈性和内容丰富性的特点,可以有效地激发和培养大学生球迷的竞争意识,同时也强化了大学生球迷的竞争意识。     

轴向应力波作用下的圆柱壳弹塑性后屈曲

为揭示柱壳屈曲变形的发展机理及屈曲波与弹塑性应力波耦合传播间的关系,运用非线性显示动力学有限元分析方法对承受轴向高速冲击载荷作用下柱壳的弹塑性后屈曲过程进行了研究。分析结果表明:对于柱壳在轴向高速冲击下的弹塑性轴对称动力屈曲,主要屈曲变形发生在柱壳的两端,屈曲变形的产生及发展与应力波在壳中的传播过程密切相关;塑性应力波在整个屈曲过程中起了绝对支配的作用;屈曲波的产生及发展,都与塑性波的传播及反射有关;弹性应力波由于在整个屈曲过程中持续的时间极短,处于次要的地位。     

高硬热喷涂层的缓进给切削试验

采用高硬材料切削过程中常用的2种刀具材料CBN和YG610,应用缓进给的模式对高硬喷涂层进行切削试验。试验结果表明：采用小进给切削模式YG610刀具切削高硬热喷涂层可以获得较理想的刀具耐用度,并且加工表面质量可以达到Ra1以下,具备了以车代磨的基本条件。高硬材料切削常用的刀具CBN在切削过程中出现了较严重的非正常破损现象。通过对试验现象的分析,可以认为冲击性和高硬度的同时存在是喷涂层切削的最重要特性。因此,喷涂层切削刀具需要同时具备较高的韧性和硬度。     

埋入式抗滑桩支护边坡稳定性分析

为研究埋入式抗滑桩在滑坡治理中的适用性,总结前人经验并经大量现场调查研究,提出埋入式抗滑桩支护的3种失效模式,即桩后滑体整体失稳、桩顶滑体越顶失稳和桩前滑体滑移失稳;并从失效模式入手,简化埋入式抗滑桩支护边坡稳定性分析模型。结合定点剪出的破坏假定,用传递系数法分别验算桩周3部分土体即桩后土体、桩顶土体和桩前土体的稳定性。最后在埋入式抗滑桩支护边坡稳定性分析模型的基础上,围绕滑体几何形态、滑面倾角、滑带及滑体力学性质等关键因素,对埋入式抗滑桩的适用条件进行探讨。研究表明:埋入式抗滑桩置于平缓段有利于其阻隔作用的发挥,保证桩前滑体的稳定性;置于滑体强度大于滑带强度的滑坡,有利于利用滑体较高的土工参数;置于坡面平缓的滑坡,有利于桩顶滑体的稳定。     

Dynamic impact protective body armour: A comprehensive appraisal on panel engineering design and its prospective materials

Personal body armour is one of the most important pieces of equipment to protect human beings from various critical and fatal injuries. In today’s modern world, various organizations including law enforcement and security service have made it mandatory for their personnel to wear personal protection system while on field duty. However, the systems should comprise an improved ballistic performance, light-weighted, flexible as well as comfortable panel not only to be accepted with a wider range but also for effective performances of the consumer. Generally, the overall performances of the protective body armour could be affected by various parameters including armour design techniques, type of materials used and finishing of the panels. The current paper aims to critically review state-of-art for armour panel design techniques and the different perspective body armour materials. The paper starts by discussing the different body armour and its category. Later, the different states of technology for armour panel design (mostly for women), its problems and the possible solutions will be cited. Later, the commonly used different polymeric fibrous and the future possible advanced materials including carbon nanotube (CNT), Graphene CNT and shear thickening fluids (STFs) treated materials for developing the reinforced body armour panel will be discussed. The authors believe that this paper will enlighten useful guidelines and procedures about the different panel design techniques and current and promising future materials for researchers, designers, engineers and manufacturers working on the impact resistance body armour field.     

Interval uncertain optimization for damping fluctuation of asegmented electromagnetic buffer under intensive impact load

Aiming at the problems of demagnetization effect of electromagnetic buffer (EMB) caused by high ve-locity under intensive impact load and the difficulty and error of machining composite thin-walled long tube, a segmented EMB is proposed. The inner tube and air-gap are divided into initial segments and the traversing segments. Through theoretical analysis, impact test and simulation, it can be found that the RRF curve has two peaks. Firstly, in order to reduce the resultant resistance force (RRF) peaks, the sensitivity analysis based on optimal Latin hypercube design (OLHD) and polynomial regression was performed. The results show that the smallest contribution ratio to the dynamic response is the seventh and ninth segments of the inner tube, which are less than 1％. Then, fully considering the uncertain factors, important parameters are selected for uncertain optimization after sensitivity analysis. The in-terval order and interval probability degree methods are used to establish interval uncertain optimiza-tion model of the RRF considering robustness. The model was solved using an interval nested optimization method based on radial basis function (RBF) neural network. Finally, the Pareto front is obtained and numerical simulation is performed to verify the optimal value. It indicates that the two kinds of RRF peak is obviously reduced, and the optimization object and strategy are effective.     

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.