Simulation of dynamic interaction between train and railway turnout

Dynamic train–track interaction is more complex in railway turnouts (switches and crossings) than that in ordinary tangent or curved tracks. Multiple contacts between wheel and rail are common, and severe impact loads with broad frequency contents are induced, when nominal wheel–rail contact conditions are disturbed because of the continuous variation in rail profiles and the discontinuities in the crossing panel. The absence of transition curves at the entry and exit of the turnout, and the cant deficiency, leads to large wheel–rail contact forces and passenger discomfort when the train is switching into the turnout track. Two alternative multibody system (MBS) models of dynamic interaction between train and a standard turnout design are developed. The first model is derived using a commercial MBS software. The second model is based on a multibody dynamics formulation, which may account for the structural flexibility of train and track components (based on finite element models and coordinate reduction methods). The variation in rail profile is accounted for by sampling the cross-section of each rail at several positions along the turnout. Contact between the back of the wheel flange and the check rail, when the wheelset is steered through the crossing, is considered. Good agreement in results from the two models is observed when the track model is taken as rigid.     

加筋土桥台结构挡墙位移的数值模拟分析

运用通用有限元程序ANSYS对一实际工程桥台部分进行非线性三维有限元分析,主要考察面板位移与实际监测值位移发展趋势的对比。结果表明模拟与实际监测趋势基本吻合。     

机车柴油机喷油泵凸轮接触应力分析

针对机车柴油机喷油泵凸轮表面常出现点蚀、麻点、剥落等损伤问题,开展喷油泵凸轮轮廓升程段的接触应力研究,分析导致喷油泵凸轮表面失效的原因。以16V240ZJB型柴油机为例,通过对油泵凸轮轮廓曲线进行几何分析,导出凸轮升程段的运动方程。采用弹性力学中的赫兹理论,建立油泵凸轮接触应力的计算式,并通过计算机编程,从理论上计算和分析喷油泵凸轮表面的接触应力。理论计算结果表明:喷油泵凸轮的接触应力虽高达1 421.655 MPa,但并未超过许用应力值。因此建议从材料加工工艺方面查找原因,提高凸轮表面加工质量,并采用复合强化工艺,进一步加大喷油泵凸轮表面的强度。     

国产继电器与引进信号系统的配合设计

通过比较阐述了国内AX安全型继电器在地铁引进信号系统的应用中发现的技术问题以及处理方法。     

薄板点焊预压时接触压力的有限元分析

对薄板结构点焊预压阶段进行了弹塑性有限元分析，得到了在锥端和球端两种电极作用下工件-工件界面和电极一工件界面的接触压力分布及工件变形情况：计算结果表明，工件在焊点附近的局部变形符合圣维南原理，但在多焊点柔性大结构的分析中应考虑局部变形的累积效应。预压阶段的分析结果有助于确定后续瞬态多耦合场分析时的初始条件.     

银铜合金接触线新工艺的研究

根据连续挤压工艺原理，提出“上引连铸-连续挤压-(轧制)-拉拔”银铜合金接触线制造新工艺。用扫描电子显微镜对新工艺生产的接触线进行显微组织观察分析，得出其横断面的平均晶粒度为8．62μm，在室温下的导电率为102．2％IACS、延伸率为7．78％、拉断力为47．42kN。用新工艺生产的接触线晶粒细小、均匀，其导电率、延伸率、拉断力等性能都明显提高。     

Theoretical and numerical analysis of bending behavior of unbonded flexible risers

This paper presents theoretical and numerical study on bending properties of unbonded flexible risers. To capture nonlinearities in layer's sliding, the stress component due to slip-stick behavior is considered and energy conservation principle considering sliding-caused heat consumption is employed in the analytical model. Besides, a finite element model estimating mechanics of unbonded flexible risers' bending is proposed. In the finite element model, couplings between bending moment–curvature and axial stress as well as contact interaction among layers and tendons have been considered. The theoretical and numerical results were validated against the corresponding experimental data in literature and mutually compared in analyzing nonlinear bending behavior of flexible risers. Moreover, the impacts of axisymmetric loads on riser's bending behavior have been further investigated.     

直供方式接触网避雷线安装方式与防雷效果分析

雷击将造成电气化铁路接触网绝缘子闪络,影响供电的可靠性。现有的研究表明,在直供方式中,接触网的绕击耐雷水平远低于其反击耐雷水平,因此架设避雷线有利于提高接触网的整体耐雷水平,减少雷击跳闸率。研究回流线升高兼做避雷线(方案1)与单独架设避雷线(方案2)对接触网防雷效果的影响。研究结果表明,当避雷线位置合适时,两种方案均能对承力索的绕击起到很好的保护作用。单独架设避雷线时,回流线与避雷线共同作用,增大与承力索的耦合系数,并对雷电流起到分流作用,从而提高接触网的感应耐雷水平与反击耐雷水平。因此方案2的感应雷耐受水平与反击雷耐受水平均略高于方案1,但总体投资要大于方案2,现场应根据雷害的严重程度及投资比较,选取合适的方案。     

弓网动态接触压力测量方法研究

在电气化铁路中,弓网接触压力对机车供电可靠性及质量起着重要作用。通过总结分析国内外测量方法,对影响弓网接触压力的因素及受电弓受力情况进行分析,设计一种检测弓网动态接触压力及机车运行方向摩擦力的装置,并对误差进行分析。     

A survey of wheel–rail contact models for rail vehicles

Accurate and efficient contact models for wheel–rail interaction are essential for the study of the dynamic behaviour of a railway vehicle. Assessment of the contact forces and moments, as well as contact geometry provide a fundamental foundation for such tasks as design of braking and traction control systems, prediction of wheel and rail wear, and evaluation of ride safety and comfort. This paper discusses the evolution and the current state of the theories for solving the wheel–rail contact problem for rolling stock. The well-known theories for modelling both normal contact (Hertzian and non-Hertzian) and tangential contact (Kalker's linear theory, FASTSIM, CONTACT, Polach's theory, etc.) are reviewed. The paper discusses the simplifying assumptions for developing these models and compares their functionality. The experimental studies for evaluation of contact models are also reviewed. This paper concludes with discussing open areas in contact mechanics that require further research for developing better models to represent the wheel–rail interaction.