基于独立分量分析和神经网络的钢结构损伤识别方法

为了有效剔除钢结构振动信号中的噪声,提取用于损伤识别的特征量,采用独立分量分析方法分离统计独立信号,同时得到表征结构损伤状态的混合矩阵,然后将混合矩阵作为特征量输入至神经网络进行训练,最后将训练好的神经网络作为分类器进行结构损伤识别.在冲击载荷作用下,针对钢框架结构模型进行了不同损伤部位的振动实验,结果表明:基于独立分量分析和神经网络的损伤识别方法具有较高的识别率和可重复性,而且实现简单,在结构损伤识别领域具有较大的应用潜力.     

刍议抛锚式教学策略在教育学课程教学中的应用

抛锚式教学把学生设于真实的情境中,让学生达到认知冲突,让学生自己去分析问题、学习解决该问题所需的知识,逐步地解决问题。作为教师职前教育的一门重要的基础课程教育学,其教学效果一直不尽如人意。而抛锚式教学法为教育学的教学模式改啦提供了一种新的思路。     

脉冲幅度特性分析的相控阵雷达识别技术

为有效识别相控阵雷达,提出了一种基于截获脉冲幅度特性分析的识别方法。该方法根据相控阵雷达与常规机械扫描雷达的扫描方式存在很大差异的特点,建立侦察设备截获脉冲的幅度模型,并通过仿真得到不同体制雷达被截获的脉冲幅度特性。然后求得不同体制雷达被截获的脉冲序列幅度特性与正弦序列幅度特性的相似系数,以此为依据来识别相控阵雷达。最后,通过比较实验证明了该方法的有效性。     

间瞄武器模拟终端火力裁决概率问题研究

在信息主导,火力主战的背景下,间瞄火力的效能发挥对战争的胜负起着至关重要的作用。而实兵对抗训练中,间瞄火力打击效能的评估一直以来缺乏有效的理论依据,影响间瞄火力裁决的科学决策。文章结合间瞄武器模拟终端的使用,根据间瞄火炮打击的特点规律,用面火力射击数学模型推导出间瞄火炮射击的毁伤概率公式,该公式可以为间瞄武器模拟终端的火力毁伤概率的确定提供理论依据。     

目标毁伤效果评估技术研究进展

目标毁伤效果评估作为目标保障的一项重要内容,对精确打击作战情报保障起到了核心作用,是现代精确打击体系的一个重要环节和关键步骤。文章从评估方法、评估模型和评估系统三个方面入手,梳理了国内外目标毁伤效果评估技术的最新研究进展,并对目前各类评估方法、模型及系统的优缺点分别进行了评述。最后,指出了该领域今后的研究方向。     

某型舰炮低压电气系统故障诊断专家系统知识库的建立

本文利用故障树分析法,通过认真分析某型舰炮低压电气系统的原理和结构特点,建立了用于诊断的故障树,并在此基础上,建立了系统知识库。     

飞机机翼结构损伤仿真研究

飞机结构的战伤模式及战伤程度预测对于制定战场抢修预案及改进战斗生存力设计具有重要意义。采用计算机模拟仿真技术定量分析了飞机机翼结构遭受射弹攻击后的损伤情况。通过损伤仿真讨论了3类情形,一是机翼结构受到简单的侵彻后的冲击效应;二是高速射弹攻击带有翼盒的机翼,而产生流体动力冲压效应;三是在射弹冲击模型中增加爆炸条件,研究射弹以任意角度冲击不同的位置产生的耦合效应。基于AN SY S/LS-DYNA仿真,给出了机翼结构损伤的结果,结论为战伤飞机战场抢修的快速评估提供了科学依据,也为飞机平时修理提供了参考。     

Chain damage effects of multi-spaced plates by reactive jet impact

Chain damage is a new phenomenon that occurs when a reactive jet impacts and penetrates multi-spaced plates.The reactive jet produces mechanical perforations on the spaced plates by its kinetic energy(KE),and then results in unusual chain rupturing effects and excessive structural damage on the spaced plates by its deflagration reaction.In the present study,the chain damage behavior is initially demonstrated by experiments.The reactive liners,composed of 26 wt％Al and 74 wt％PTFE,are fabricated through a pressing and sintering process.Three reactive liner thicknesses of 0.08 CD,0.10 CD and 0.12 CD(charge diameter)are chosen to carry out the chain damage experiments.The results show a chain rupturing phenomenon caused by reactive jet.The constant reaction delay time and the different penetration velocities of reactive jets from liners with different thicknesses result in the variation of the deflagration position,which consequently determines the number of ruptured plates behind the armor.Then,the finite-element code AUTODYN-3D has been used to simulate the kinetic energy only-induced rupturing effects on plates,based on the mechanism of behind armor debris(BAD).The significant discrepancies between simulations and experiments indicate that one enhanced damage mechanism,the behind armor blast(BAB),has acted on the ruptured plates.Finally,a theoretical model is used to consider the BAB-induced enhancement,and the analysis shows that the rupturing area on aluminum plates depends strongly upon the KE only-induced pre-perforations,the mass of reactive materials,and the thickness of plates.     

An interface shear damage model of chromium coating/steel substrate under thermal erosion load

The Cr-plated coating inside a gun barrel can effectively improve the barrel's erosion resistance and thus increase the service life.However,due to the cyclic thermal load caused by high-temperature gun-powder,micro-element damage tends to occur within the Cr coating/steel substrate interface,leading to a gradual deterioration in macro-mechanical properties for the material in the related region.In order to mimic this cyclic thermal load and,thereby,study the thermal erosion behavior of the Cr coating on the barrel's inner wall,a laser emitter is utilized in the current study.With the help of in-situ tensile test and finite element simulation results,a shear stress distribution law of the Cr coating/steel substrate and a change law of the interface ultimate shear strength are identified.Studies have shown that the Cr coating/steel substrate interface's ultimate shear strength has a significant weakening effect due to increasing temperature.In this study,the interfacial ultimate shear strength decreases from 2.57 GPa(no erosion)to 1.02 GPa(laser power is 160 W).The data from this experiment is employed to establish a Cr coating/steel substrate interface shear damage model.And this model is used to predict the flaking process of Cr coating by finite element method.The simulation results show that the increase of coating crack spacing and coating thickness will increase the service life of gun barrel.     

一种新的变结构控制方案及其在船舶操纵中的应用

船舶的操纵与控制问题可以归结为一个四阶线性系统在环境干扰、参数摄动与建模误差同时存在时的状态空间控制问题。传统的变结构控制应用于船舶操纵系统易导致频繁来回操舵。本文研究一种连续的变结构控制方案,进一步讨论了其稳定性及优点,并将其引入限制水域的船舶操纵中。仿真表明,它可以完全抑制频繁来回操舵或抖振,并可得到较理想的控制效果。