保障轨道交通安全运行的轨道检测技术及设备

随着上海轨道交通运营里程的增加,工务部门检测的任务也日益繁重.目前的人工检测手段不仅效率低,而且容易出现错判、漏判,从而给安全运行埋下隐患.通过介绍国内外一些先进检测技术,强调工务部门应着手采用诸如轨检车和探伤车等大型无损检测设备,以便对线路的平顺性、限界及钢材和轨道下部混凝土结构的伤损进行快速检查.实现工务管理由人工静态型向仪器动态型转变,保证轨道交通运行的安全、准点、平稳运行.     

柏林市亚历山大广场枢纽站剖析

剖析柏林市亚历山大广场交通枢纽,从中发现对我国城市交通枢纽建设有益的经验和启示.介绍了该枢纽形成的历史过程及背景,反映该枢纽在柏林城市交通网中的地位与作用;分析了该枢纽的布局结构,及其功能特点和换乘关系,并分析了枢纽运营管理的特点;综合分析结果,得出了改善我国城市交通枢纽规划设计的启示.     

南昌中环快速路北段昌九立交设计

南昌中环快速路北段昌九立交是南昌市快速路网中重要的交通枢纽,根据昌九立交交通量预测结果、工程地理位置、施工条件等因素,在保证行车安全、舒适的前提下,充分考虑立交造型美观,经济合理,文章详细介绍了昌九立交设计过程中整体布局的思路及主要设计内容。     

冰载荷作用下船体结构强度有限元分析方法

针对船舶在冰区航行过程中船体承受冰载荷的直接撞击作用,存在结构损坏风险的情形,旨在研究建立冰载荷作用下船体结构强度有限元分析的技术实施方法.分析船—冰相互作用特点,研究结构分析时冰载荷的理想化及施加方法,基于冰区船舶结构特点提出极地船舶有限元建模方法,考虑线性和非线性分析方法的差异研究结构强度校核准则,在此基础上,构建线性和非线性有限元分析方法在极地船结构强度分析过程中的实施方法和技术途径.通过实船结构船首和船中结构强度分析的计算验证,该方法具有较好的可操作性,可为极地船舶的结构强度分析提供参考.     

农用车辆配套简易播种机设计

文章介绍的旋耕播种机主要由六个部分组成,即:悬挂装置、动力传输装置、旋耕装置、播种装置、镇压装置和链条传动装置。农用车辆拖拉机前进后镇压装置也向前运行带动链条传动装置,与之另一端连接的播种箱的播种轴也随之转动,使种子从排种孔中流出顺着播种管与播种开沟器流出最后流入垄沟,从而实现播种机的播种作业。播种机播种后的农作物生长均匀分布排列整齐,这样可以便于人们实现播种过后对田地的管理作业,也是人们实现农业机械现代化的重要技术手段之一。     

基于CFD方法的空调风管除霜性能开发

基于空调风管除霜性能开发过程,将总体性能分解到风管性能、玻璃近壁面的速度性能以及考虑温度的除霜性能。使用计算流体力学(CFD)方法,在设计前期通过稳态分析控制风管的性能及速度性能;在设计后期通过瞬态分析评估空调除霜的能力。分析结果表明,空调除霜性能目标从部件到整车均满足要求。     

纯电动卡车总装混线生产的工艺研究

纯电动卡车的产品特点与传统燃油卡车既有共性又存在差异,对比两种车型的底盘装配和调试工艺后,在传统燃油车总装配线的基础上设计了一套新能源的装配工艺流程,不仅提高总装配车间柔性化生产,还实现了纯电动卡车和燃油卡车的混线生产。     

微型扑翼飞行器空气动力学研究进展

微型扑翼飞行器(FMAV)作为一种新概念的航空器,有着广泛的功能和用途,已经受到了各国的高度重视.综述了国内外对微型扑翼飞行器的低雷诺数空气动力学问题的研究现状及未来的发展趋势,讨论了目前研究中需要解决的一些关键技术.在此基础上,总结出今后研究的重点,并为微型扑翼飞行器的设计提供了参考依据.     

ISS-based robust adaptive fuzzy algorithm for maintaining a ship's track

This paper focuses on the problem of linear track keeping for marine surface vessels. The influence exerted by sea currents on the kinematic equation of ships is considered first. The input-to-state stability(ISS) theory used to verify the system is input-to-state stable. Combining the Nussbaum gain with backstepping techniques,a robust adaptive fuzzy algorithm is presented by employing fuzzy systems as an approximator for unknown nonlinearities in the system. It is proved that the proposed algorithm that guarantees all signals in the closed-loop system are ultimately bounded. Consequently,a ship's linear track-keeping control can be implemented. Simulation results using Dalian Maritime University's ocean-going training ship 'YULONG' are presented to validate the effectiveness of the proposed algorithm.     

Using a SVM to evaluate damage to vibration isolators in an elastic raft system

Predicting damage to vibration isolators in a raft experiencing heavy shock loadings from explosions is an important task when designing a raft system. It is also vital to be able to research the vulnerability of heavily shocked floating rafts unreliable, especially when the allowable values The conventional approach to prediction has been or ultimate values of vibration isolators of supposedly uniform standard in a raft actually have differing and uncertain values due to defective workmanship. A new model for predicting damage to vibration isolators in a shocked floating raft system is presented in this paper. It is based on a support vector machine（SVM）, which uses Artificial Intelligence to characterize complicated nonlinear mapping between the impacting environment and damage to the vibration isolators. The effectiveness of the new method for predicting damage was illustrated by numerical simulations, and shown to be effective when relevant parameters of the model were chosen reasonably. The effect determining parameters, including kernel function and penalty factors, has on prediction results is also discussed. It can be concluded that the SVM will probably become a valid tool to study damage or vulnerability in a shocked raft system.