基于最小二乘支持向量机的坦克炮身管剩余寿命预测方法

针对高膛压坦克炮身管剩余寿命预测的难题,结合坦克实弹射击试验数据量少和非线性的特点,基于最小二乘支持向量机构建了坦克炮身管剩余寿命预测模型,给出了模型参数的选取方法,并以某型坦克炮射击试验为基础,对坦克炮身管剩余寿命预测模型进行了验证。结果表明:该模型预测坦克炮身管剩余寿命效果良好。     

固体火箭发动机复合材料壳体裙黏接性能分析

采用数值计算方法研究复合材料壳体裙连接结构的黏接性能。通过建立纤维缠绕壳体的有限元模型,采用内聚力模型定义裙黏接面的接触关系,引入黏接界面的损伤失效准则,模拟黏接界面的脱黏行为,以此预测裙连接结构的极限承载。同时,研究壳体的轴向和环向应变及黏接面上的剪应力分布情况,以及弹性层的弹性模量与黏接长度对黏接性能的影响。数值算例表明,计算结果与实验数据相吻合,验证了该方法的正确性。所提方法可用于裙连接结构的优化设计中。     

A model for critical crack size estimation in fatigue failure of gun barrels

With repeated firing, fatigue cracks are produced in a gun barrel, and the barrel is no longer useful when a crack reaches a critical size. The initial crack size and the critical crack size, as well as the number of firings producing the critical crack size, may be considered as random variables. Assuming a proportional damage model for crack growth, a method for estimating the critical crack size distribution is presented. From these results, an estimate of the barrel life, or the residual barrel life once a crack of a given size is measured, can be obtained.     

Prediction of three-dimensional elastic behavior of filament-wound composites based on the bridging model

This work provides a method to predict the three-dimensional equivalent elastic properties of the filament-wound composites based on the multi-scale homogenization principle.In the meso-scale,a representative volume element(RVE)is defined and the bridging model is adopted to establish a theoretical predictive model for its three-dimensional equivalent elastic constants.The results obtained through this method for the previous experimental model are compared with the ones gained respec-tively by experiments and classical laminate theory to verify the reliability of this model.In addition,the effects of some winding parameters,such as winding angle,on the equivalent elastic behavior of the filament-wound composites are analyzed.The rules gained can provide a theoretical reference for the optimum design of filament-wound composites.     

Numerical simulation of dynamic large deformation and fracture damage for solid armature in electromagnetic railgun

The design of solid armature of railgun should take full account of its operating conditions and material properties because the armature is subjected to dynamic loading conditions and experiences a complicated electrical, thermal and mechanical process in the interior ballistic cycle. In this paper present, we first introduced a multi-physical field model of railgun, followed by several examples to investigate the launching process. Especially, we used the explicit finite element method, in which material nonlinearity and geometric nonlinearity were accounted, to investigate the deform behaviors of solid armature. The results show that the dynamic mechanical process of armature is dependent on the armature geometry, material and exciting electric current. By the numerical simulation, the understanding of the fracture mechanism of solid armature was deepened.     

Crashworthiness performance of hybrid kenaf/glass fiber reinforced epoxy tube on winding orientation effect under quasi-static compression load

This research was aimed to study the effect winding orientation on the crashworthiness performance of hybrid tube. The specimens tested under quasi-static compression load involve of three winding parameters (θ = 30°, 45° and 70°) of hybrid kenaf/glass fiber reinforced epoxy and glass fiber reinforced epoxy as contrast specimen. The automated filament winding technique has been used in fabrication of hybrid and non-hybrid composite tube and crashworthiness performance was investigated experimentally. The effects of winding orientation on energy absorption capabilities and crashworthiness characteristic were investigated through quasi-static compression load and the result are compared with the glass fiber composite tube to justify the capability of hybrid natural/synthetic as energy absorption application. Hybridized samples proved to enhancing the progressive crushing capability as combination of local buckling, delaminate and brittle fracturing as progressive crushing modes.In the view of winding orientation aspect, the results of high winding orientation of hybrid composite tube elevated the crush load efficiency, specific energy absorption and energy absorption capability compared to glass composite tube (GFRP). The hybrid kenaf/glass composite tube with high winding orientation showed the best winding orientation to enhance the energy absorber characteristics as energy absorption application.     

纤维缠绕复合材料夹芯圆柱体高应变率压缩吸能机理

为研究纤维缠绕复合材料夹芯圆柱体吸能元件在高应变率冲击压缩载荷作用下的变形损伤模式和能量吸收机理,采用ABAQUS商用有限元软件和分离式Hopkinson压杆装置开展数值模拟分析和试验验证研究。对比分析宏观力学响应规律和微观损伤破坏机理,可知吸能结构元件在高应变率压缩载荷下的力学响应具有典型的弹塑性特征,内部芯材主要产生压缩塑性损伤,而表层复合材料沿环向产生拉伸断裂破坏。研究表明,该吸能元件冲击压缩吸能特性优异,可满足水下结构平台的冲击防护和浮力储备要求。     

筒形桅杆有限元振动计算模型的研究及空间杆系结构奇点的消除方法

本文建立了筒形桅杆的有限元计算模型并对其进行了计算、讨论,计算结果精确。本文还对空间杆系结构有限元振动计算模型中的无刚度“奇点”进行了研究,提出了一个可用于消除空间杆系结构有限元振动计算模型中的无刚度“奇点”的方法。     

基于混沌量子粒子群的舰炮身管多目标优化研究

舰炮的炮口扰动是影响舰炮射击精度的重要因素。为了减少舰炮的炮口扰动,优化身管结构,建立了柔性身管的有限元模型并将该模型的模态计算结果与模态试验测试值进行对比,证明建立的柔性身管有限元模型是有效的。提出了混沌量子粒子群算法与动力学联合优化的方法,进行身管和炮口的多目标优化,优化结果表明：优化后的炮口中心的线速度、角速度和角位移与优化前相比显著减小,身管质量有所降低,结构更加合理,该优化方法有效可行,为下一步全炮总体优化设计提供了一定的借鉴。     

对接厚板表面裂纹的残余应力强度因子

利用线弹簧模型求解对接厚板表面裂纹的残余应力强度因子。基于Reissner板理论和连续分布位错思想,将对接厚板表面裂纹问题归结为一组Cauchy型奇异积分方程,并采用Gauss-Chebyshev方法给出了奇异积分方程的数值结果,并与有限元解进行比较,计算结果表明:用线弹簧模型解决含残余应力表面裂纹问题不仅是合理可行的,而且是一种简单方便的方法,便于工程实际应用。     

身管柔性化对火炮动力后坐试验的影响研究

为研究火炮动力后坐试验过程中身管变形对火炮后坐复进运动的影响,以某自行火炮火力部分作为研究对象,基于多体动力学和有限元方法,构建了考虑身管柔性化的火力部分刚柔耦合动力学模型。该模型中,炮膛合力以样条函数的形式直接作用在炮口前端。通过仿真,对比火炮后坐部分最大后坐速度、最大后坐位移以及最大后坐速度时的后坐位移和时间的仿真值与实弹射击过程中的试验值,结果表明,采用冲击的方式进行火炮后坐模拟试验时,身管柔性特征对火炮后坐复进特性影响较小,也证明冲击式火炮后坐试验装置的研制可行性。     

复合材料层合结构层向理论及应用进展

层向理论是由Reddy提出来的一种用于精确分析复合材料层合结构的三维板壳分析理论。由于不引入任何的变形和应力假设条件,因此相较于传统的等效单层板理论,层向理论在分析大厚度复合材料层合板壳结构的静动态响应及其局部层间效应时具有较大的优势。系统地综述了层向理论近年来的研究进展、数值解法及其应用情况。具体包括:层向理论的基本原理及发展现状、基于层向理论的有限元方法及改进模型、层向理论在复合材料层合结构静动态响应及含损伤问题领域的应用等。并对该理论可进一步拓展的研究方向进行了展望。     

纤维缠绕复合材料约束球形浮力芯材准静态压缩吸能机制

针对海洋工程平台的防护吸能和浮力储备需求,设计一种纤维缠绕复合材料约束球形浮力芯材吸能结构。为分析其变形损伤特征和能量耗散机理,通过ABAQUS有限元软件和万能材料试验机开展数值模拟分析和试验验证研究。通过力学响应特征和损伤破坏模式分析可知,结构吸能设计的关键在于表层和芯材的泊松比匹配。芯材主要通过塑性压缩损伤和剪切断裂破坏吸收能量,而表层吸能则主要通过环向的花瓣形拉伸断裂破坏。研究表明,该型结构单元压缩吸能特性优异,可实现海洋工程结构平台的防护吸能和浮力储备要求。     

线膛身管有限元网格参数化建模方法

为了精确快速地建立身管结构有限元网格模型,提出基于Python脚本语言操作单元和节点坐标的参数化建模方法,建立身管结构有限元网格模型。使用该方法能够精确地建立身管内膛(包含药室、坡膛和导向部)和外部轮廓的有限元网格模型,并进行参数化建模。以76 mm火炮身管为对象,建立身管与弹丸耦合的有限元模型,计算弹丸在身管内的全弹道运动过程,并结合相应实验进行验证。研究结果表明：该方法能够精确快速地建立身管结构有限元网格模型。     

身管自重弯曲对射击精度的影响分析与修正

运用有限元方法计算出身管在自重作用下不同射角时炮口端的弯曲度,得出炮口角随射角的变化关系,分析身管自重弯曲对火炮射击精度的影响,并建立身管弯曲的修正模型。证明身管的自重弯曲是影响射击精度的不可忽略的因素,提出了一种计算弯曲度和修正射击的方法。     

太阳电池阵组合基板模态参数分析的半解析模型

基于分布参数系统传递函数方法的基本理论,针对空间结构太阳电池阵的特殊结构形式,通过将太阳电池阵基板划分为条形单元,将基板间连接铰链副简化为均匀梁单元,并利用条形单元与梁单元公共结点间位移连续与力平衡条件,建立了空间结构太阳电池阵动力学特性分析的半解析计算模型。得到了太阳电池阵单块基板和多块组合基板的模态参数计算值,并将其计算结果与有限元结果进行了比较。     

Modeling and simulation of muzzle flow field of railgun with metal vapor and arc

During the electromagnetic railgun launching process, there will be a complex flow field with high temperature in the muzzle area because of the high-speed friction, transition and secondary arc-ignition. This paper models the muzzle area of railgun when the projectile is far away from the muzzle, and the dynamic simulation of the flow field with secondary arc in the muzzle area is carried out based on the magneto hydrodynamic equations. Meanwhile, a multi-component plasma transport model is used to analyze the muzzle arc plasma flow process of the mixed gas of Al vapor and the air. Furthermore, the pressure boundary conditions are fitted by the dynamic mesh simulation results. The current and voltage of the muzzle are obtained through the emission experiment of the railgun experimental prototype. We load the current data into the simulation model and the voltage of experiments and simulations are compared, which proves the accuracy of the simulation. Then the plasma temperature and the composition of Al vapor in the muzzle flow process are analyzed in-depth.     

高射机枪有限元模型研究

建立高射机枪有限元模型的目的在于对其进行动力特性分析和求解动力响应,并作为自动武器动力学仿真的重要组成部分。针对某型高射机枪建立有限元改进模型,建模中,把枪身、托架等简化为空间梁系,下架采用三维等参元模拟,并采用主从自由度法处理了三维元与梁元的联结问题,通过与传统粱单元模型的对比分析,说明改进模型具有较好的精度。     

A probability model for initial crack size and fatigue life of gun barrels

With constant firing, metal fatigue produces cracks in a gun barrel. The useful life of the barrel comes to an end when a crack develops to a critical size. The theory of Fracture Mechanics suggests a formula for crack size growth rate. This formula can be used to determine the life of a barrel, depending on the initial and critical crack sizes and other factors. The initial crack size turns out to be a dominant factor. Unfortunately, accurate measurements are not generally available on the initial crack size. In this paper, we propose a simple probability model for the initial crack size and this, in turn, leads to a probability distribution of the life of the barrel. This last distribution is the well-known exponential distribution with a location shift. The simplicity of this final result is one of the factors that make the model appealing.     

考虑自重挠度的火炮试验装置身管稳定性校核研究

针对炮口强冲击条件下身管可能出现失稳的问题,将某型火炮试验装置身管近似为一端固定、一端铰支的九阶梯变截面构件．基于有限元软件平台,提取身管各截面在重力作用下的挠度,建立具有初始挠度的身管有限元模型,并验证其在冲击条件下的稳定性．该研究结论为炮口冲击式火炮试验装置的可行性论证提供了科学依据．