四轮全向移动机器人的双闭环速度控制系统设计

设计了四轮全向移动机器人的传感器信息采集硬件电路,并通过分析四轮全向移动机器人的运动学模型,提出了基于TI公司最新研发的TMS320F28069为主控制器的直流电机双闭环速度控制方案.试验结果表明:所提控制方案能够满足四轮全向移动机器人速度控制的要求,且响应速度快、误差小.     

基于全寿命周期的消防装备管理系统化组织体系建立

目前消防装备管理存在着管理环节分离,管理决策缺乏科学性,经费使用效益低下等问题。以全寿命周期管理理念,推进消防装备管理创新,建立消防装备管理系统化组织体系,是解决问题的关键。     

矿车驾驶室悬置刚度匹配计算

以某矿车为研究对象,建立了整车6自由度模型,通过在频域内路面功率谱对车轮激振,模拟矿车驾驶室的振动。并改变驾驶室前、后悬置的刚度以及阻尼比,3变量同时作用,根据平顺性评价指标,对前、后悬置刚度进行了合理匹配,为驾驶室悬置刚度值选取提供了依据。     

温度应力下的加速度计贮存寿命评定

针对加速度计长期自然贮存于不同温度应力下,试验数据为成败型不完全数据,贮存寿命无法准确评估的难题,运用极小x~2估计和拟合优度检验相结合的方法来拟合产品的失效分布,通过Matlab软件中的fminsearch函数确定了不同温度下的分布参数,采用最小二乘法求解了参数与温度之间的函数关系,提出了该类型加速度计基于不同温度的失效分布函数,并预测了正常温度下贮存寿命为16.8 a。结果表明:提出的加速度计失效分布函数更能反映加速度计在不同温度下的贮存寿命变化规律,在工程研究领域具有一定的实用价值。     

Constructing a strict total order for alternatives characterized by multiple criteria: An extension

The problem of finding a strict total order for a finite set of multiple criteria alternatives is considered. Our research extends previous work by us, which considered finding a partial order for a finite set of alternatives. We merge the preference information extracted from the preference cones and corresponding polyhedral sets, with the information derived from pairwise comparisons of two alternatives, yielding a preference matrix. This preference matrix is used as input to an integer programming model to obtain a strict total order that provides a transitive ranking for the set of alternatives. © 2014 Wiley Periodicals, Inc. Naval Research Logistics 61: 155–163, 2014     

某型履带车辆稳态噪声的分析与控制

对某型履带车辆稳态噪声的试验数据进行了曲线拟合,根据拟合结果分析了履带车辆行驶参数和路面状况对噪声的影响,并依经验提出了降低噪声的措施和方法.     

基于仿真的技术保障装备体系效能评估方法

针对陆军技术保障装备体系效能评估需求,提出了基于仿真的技术保障装备体系效能评估方法框架,研究构建了技术保障装备体系效能评估指标体系,给出了指标参数值计算方法和指标权重确定方法,设计了技术保障装备体系效能仿真评估系统功能框架,为面向技术保障装备体系论证与优化的效能评估提供了方法和手段支撑.     

Light weight HTPB-clay nanocomposites(HCN)with enhanced ablation performance as inhibition materials for composite propellant

In the present study,organically modified Montmorillonite clay with polar moiety,the Cloisite 30B,is used for preparation of Hydroxyl terminated polybutadiene(HTPB)-clay nanocomposites(HCN)by dispersion of nanoclay in polymer matrix under high shear mixing.The nanocomposites thus prepared are evaluated in composite propellants as inhibitor material for their functional utility.Several inhibition formulations containing 5 wt％-15 wt％of nanoclay,with or without the conventional filler Sb2O3,were prepared.All these formulations were evaluated for their physical,mechanical,thermal,and ablative properties.Ablation rate and density of the compositions containing Cloisite 30B is around 23％and 5％lower respectively in comparison of the base composition.Strain capability of these compositions is twofold higher than that of base composition.These compositions have also been evaluated for their smoke generation tendency by measuring infra red(IR)attenuation in the wavelength range 1.3 μm-5.6 μm and 8 μm-13 μm and thereby compared with the base composition.The corresponding results confirmed that the compositions containing Cloisite 30B as filler have much lower IR attenuation than compositions with conventional filler,Sb2O3.Replacement of 5％Sb2O3 by nanoclay showed 8％reduction in IR attenuation rate which further reduced to 16％on replacement of 15％of Sb2O3.Interfacial bonding of HCN based inhibitors is also comparable or even better than conventional inhibitors.Precisely,the nanoclay composites with Cloisite 30B as filler exhibit all desirable properties of an inhibitor.     

Vapor-phase decomposition of dimethyl methylphosphonate (DMMP), a sarin surrogate,in presence of metal oxides

Chemical warfare agents (CWA) are stockpiled in large quantities across the globe. Agents stored in inaccessible facilities need to be destroyed rapidly without dispersing the compounds to surrounding areas. Metal-based energetic formulations are used in such prompt defeat applications to rapidly decompose the CWA by generating a high temperature environment. An alternate, and possibly a more effective decomposition pathway could be provided by chemicidal action of aerosolized condensed combustion products, which typically consist of metal oxides. Toxic fumes that escape the high tem-perature blast zone can be neutralized by smoke generated during combustion, depending on the par-ticle size, surface characteristics, chemical properties, and concentration of this smoke. This review considers relevant experimental and modeling studies quantifying decomposition of CWA comprising organophosphorus compounds and their surrogates on the surface of various metal oxides. Dimethyl methylphosphonate (DMMP), a sarine surrogate, was used most commonly for such experiments. Many reported efforts focused on the mechanisms of adsorption of DMMP to various metal oxides and initial reaction steps cleaving various bonds from the chemisorbed molecules. For selected oxides, these ex-periments were supported by quantum-mechanical calculations. In other studies, the capacity of oxide surfaces to adsorb and decompose DMMP was quantified. In most cases, porous catalysts were used although limited experimental data are available for aerosolized nonporous oxide particles. The reported experimental data applicable to scenarios involving prompt decomposition of CWA are summarized. It is noted that information is lacking describing respective heterogeneous reaction kinetics. Preliminary estimates of aerosolized smoke particle concentrations required to destroy CWA are made considering gas phase diffusion rates and reported values of the oxide capacity to decompose CWA or their surrogates.     

小载荷无人机无源定位技术研究

近年来,电子战设备和信号情报系统更加高效小型化,无人机可以携带的载荷种类不断增多.随着无人机的研究、设计和制造水平得到前所未有的提高,在无源定位领域开始发挥越来越重要的作用.从无源定位技术的分类入手,重点研究无人机无源定位的方式、对象和关键技术;以雷达辐射源为例,构建了小载荷无人机虚拟到达时间差(Virtual tim...