舰载雷达稳定平台基座优化设计

本文对某舰载雷达稳定平台基座在船摇、风载和振动载荷作用下的受力情况进行分析和计算。运用有限元技术对原基座的载荷分布进行分析,同时对基座进行结构优化设计。通过对优化后基座的有限元分析计算表明其满足减重要求和船摇、风载和振动条件下的强度设计要求。     

大跨度系杆拱桥主拱钢-混凝土结合段受力状态分析

以鹰潭市余信贵大跨度中承式钢管混凝土系杆拱桥为研究对象,利用有限元软件分别建立大桥整体数值模型与钢-混凝土结合段局部实体数值模型,计算分析主拱钢-混凝土结合段在设计荷载作用下的受力状态与承载能力。分析结果表明:在持久状况荷载组合下,主拱肋钢-混凝土结合段模型变形连续,最大变形量为0.030 m,主拱肋钢-混凝土结合段结构刚度及变形满足要求;钢-混凝土结合段混凝土最大拉应力为1.63 MPa,钢结构部分Von-Mises等效应力最大值为236 MPa,均小于容许应力,满足结构设计要求;为避免应力集中,须对钢-混凝土结合段的坡口进行细化设计,或调整主跨系杆的张拉力。     

西南某机场水泥混凝土道面板应力计算分析

为了对西南某机场水泥混凝土道面板进行应力分析,通过现场钻芯取样和劈裂实验得出劈裂强度值和基层顶面反应模量。应用ANSYS软件建立三维有限元模型,计算不同飞机荷载作用下的板边应力。由应力折减系数得出板边计算应力,判断道面能够运行的最大飞机重量。比较板边自由与不自由两种状态下道面产生的应力和位移,发现高温作用下道面的受力变化与低温状态下不同,对机场道面在夏季和冬季运行时提出建议。     

铁路客站大跨叠层桁架结构受力分析

跨度52m的钢结构大跨叠层桁架是西安火车站站改工程重要组成部分。通过建立大跨叠层桁架的整体有限元模型,对整体结构进行全面的静力分析和自振特性分析。静力分析着重研究结构整体变形和应力比,分析不同荷载工况作用下结构变形特征;自振特性分析在研究叠层桁架自振特性的基础上,分析改变桁架腹杆形式对结构自振特性的影响。计算结果表明:构件的变形及应力比均满足《钢结构设计规范》(GB50017—2003)的规定,结构整体位移分布一般呈现正对称特征,大跨叠层桁架的最大位移区域位于跨中位置;大跨叠层桁架具有较低的自振频率,腹杆形式的改变对其自振频率的影响不大。     

Pragmatic regularization of element-dependent effects in finite element simulations of ductile tensile failure initiation using fine meshes

For the evaluation of the structural response in accidental scenarios like ship collisions, the simulation of tensile failure initiation is inevitable. Here, one difficulty is that the process of failure initiation is a very local process, which cannot be simulated in its details at present due to the computing effort which would be required. However, there are various approaches how the failure initiation can be simplified and simulated in finite element models of large thin-walled structures. A short overview of these approaches is given. A pragmatic approach, which is suitable for relatively small elements for the simulation of failure initiation in uniaxial to biaxial stress states, is chosen within this paper for further investigations regarding the applicability for thin-walled steel structures. Exemplary simulations with solid and, in particular, shell elements are used to demonstrate how the effects of element size and other element properties can be considered in the simulation of failure initiation. The focus is also on imperfections that are relevant in simulations with small elements. For this purpose, an indentation experiment is simulated with different imperfections.     

地铁隧道二次衬砌钢筋网防裂性能研究

为了定量分析防裂钢筋网提高隧道衬砌结构抗裂性能的机理和幅度,以地铁双线隧道二次衬砌结构为研究对象,采用荷载结构法和杆系有限元数值模拟方案,定量分析二次衬砌结构不设置与设置钢筋网这2种情况下的开裂临界荷载。其中素混凝土结构以达到极限拉应变为临界状态,衬砌结构增设钢筋网后以达到GB 50157-2013《地铁设计规范》允许的最大裂缝宽度0.2mm为临界状态。分析结果表明,配置防裂钢筋网后,Ⅲ级和Ⅳ级围岩衬砌结构抗裂性能可分别提高22.4%和19.3%,Ⅴ级围岩衬砌结构抗裂性能提高15.2%;Ⅲ级和Ⅳ级围岩二次衬砌结构的破坏形式由脆性破坏变为延性破坏,从而提高了其安全性能。     

盾构隧道整体道床剥离病害规律研究北大核心CSCD

盾构隧道整体道床的剥离病害已严重影响地铁的安全运营。为研究整体道床剥离病害的规律,文章以国内某运营地铁线路为工程背景,建立整体道床-管片-注浆层数值模型进行分析研究。结果表明:列车轮组作用在道床一侧靠近伸缩缝位置时会引起较大的道床剥离变形,是最不利位置;列车荷载在振动作用下引起的剥离量远大于静载作用时的,且两者间存在函数关系;伸缩缝位置是最易发生剥离的区域,剥离首先发生在伸缩缝两侧边缘,随列车动载作用时间增加,剥离区域扩展至伸缩缝1.5 m范围内;注浆层刚度与接触面黏结强度均是影响剥离量的重要因素,提升注浆层刚度和道床-管片接触面的黏结强度可有效减少剥离量。     

Numerical study on the dynamic response of a truncated ship-hull structure under asymmetrical slamming

Dynamic response of ship-hull structure under slamming has tracked widespread attention in the marine structural design. However, our understanding on the dynamic characteristics largely relies on the symmetrical slamming cases. This paper presented a preliminary numerical investigation on the dynamic response of a truncated ship-hull structure under asymmetrical slamming based on the uncoupled CFD-FE method. Asymmetrical slamming loads were predicted through combining the seakeeping analysis and CFD method. In there, three kinds of motions (vertical, horizontal and roll motions) of 2D ship sections were obtained through the seakeeping analysis and then the slamming pressure was predicted through simulating the water entry with various motions based on CFD method. The dynamic response was analyzed through finite element method. Numerical predictions including ship motions, slamming loads and dynamic analysis were validated against published experimental data and numerical calculations. The characteristics of asymmetrical slamming loads were analyzed showing obvious asymmetry in space, and the dynamic characteristic of the ship bow structure was further clarified through discussing the deformation and stress distribution. These results are useful for readers for better understanding the dynamic characteristics of the bow structure under slamming.     

全预制盾构隧道边箱涵精细化施工分析

依托京张高铁清华园隧道工程,介绍清华园隧道工程及其隧道内边箱涵施工工法,并详细讨论边箱涵预制化施工的优缺点。盾构隧道采用全预制轨下结构有5大优点:降低施工现场环境污染,有效改善施工现场工人作业环境,有助于提高工程整体施工效率,降低施工作业风险水平,保障钢筋混凝土构件的质量水平。但依然存在以下缺点:提升构件制造及运输维护费用,构件现场吊装精度要求较高。针对清华园隧道边箱涵吊装施工精细化施工问题进行有限元分析,发现由于边箱涵重心两侧吊装孔距不同,会导致边箱涵近重心侧产生应力集中现象,同时将随着吊装误差的提高应力集中现象显著提升。为保证边箱涵的精细化施工,边箱涵吊装误差不得超过60 mm,两侧边箱涵左右交错拼装施工,建议未来类似工程中异形构件吊装孔设计应考虑吊装误差产生的影响。     

Numerical simulation of level ice impact on landing craft bow considering the transverse isotropy of Baltic Sea ice based on XFEM

Ice bending is a major failure mechanism of level ice when ships and marine structures interact with level ice. This paper aims to investigate the ice bending and ice load when level ice collides on ships and marine structures using numerical simulation method, and compare the numerical results with field test. The fracture of ice is simulated with extended finite element method (XFEM), and cohesive zone concept is used to describe the crack propagation. In order to consider the characteristics of S2 columnar ice, a transversely isotropic elastic material model is used for the ice bulk elements, and a transversely isotropic Tsai-Wu failure criterion is adopted to predict the initiation of cracks. A well-controlled field test of a landing craft bow colliding with level ice in Baltic Sea is simulated to verify the numerical scheme. The ice plate's continuous deformation, crack initiation and crack propagation at different impact velocities and angles are simulated and the results are discussed. In the simulation, the bending crack emerges at the midline of the top surface of ice plate, then propagates towards free boundary, and finally a circumferential crack forms. It is found that with the impact velocity increases, the bending load increases and the fracture size (perpendicular distance from the crack to the contact edge) decreases. And as the angle between the landing craft bow and vertical direction increases, the bending load and the fracture size decrease. The simulated results corresponds well with the field test. The competition between the circumferential crack and radial crack is also found in the simulation and will be discussed in this paper. The results show that this method well simulates the bending of level ice and predict the ice load, and provides a good approach for investigating the mechanism of different forms of level ice fracture.