轮对与道岔接触问题的有限元分析

针对城市轨道车辆车轮和道岔的磨耗问题,应用参变量变分原理及基于此原理的有限元参数二次规划法来求解轮对与道岔的接触问题,建立轮对与辙叉、护轨、基本轨的多体接触有限元计算模型,分析不同工况下轮对和道岔接触斑形状、内部应力以及接触力的分布和变化规律。结果表明,由于车轮踏面与9号辙叉的型面不配合,轮对与辙叉形成两点接触,且接触斑狭长,靠近轮缘处踏面和辙叉接触斑的应力及接触力非常大,其数值远远超过材料的屈服极限,进入塑性变形阶段,这将导致车轮踏面与辙叉的磨耗严重。这一研究方法和计算结果将为道岔的合理设计以及轮对和道岔型面更好配合提供了理论依据。

沉桩挤土效应的参变量有限元分析

参变量有限元法是一种特别适合于岩土类非线性材料数值计算的新方法。应用圆柱形空腔体扩张理论模拟沉桩挤土效应,考虑土体服从Tresca和Drucker-Prager准则的理想弹塑性本构模型,编制了轴对称应变的参变量有限元程序,对圆柱形孔的内壁位移、桩周土体的应力场、位移场进行了计算分析,并与解析解和ANSYS的解作对比,计算结果表明用参变量有限元法分析沉桩挤土效应是有效的和可行的。

粘塑性问题的参数二次规划法

本文应用参变量变分方法处理Perzyna粘塑性问题,将原问题化为求解带约束条件的二次规划问题,文中具体讨论了用于该问题的有限单元形式及具体实施过程.

采煤机牵引行走机构的接触应力分析

本文应用有限元参数二次规划法求解采煤机牵引行走机构齿轨接触强度问题,介绍了有限元建模和网格划分,分析了计算结果。

轮轨共形接触的有限元分析

建立了机车在曲线通过时,车轮轮缘贴靠钢轨过程的轮轨共形接触计算模型,采用有限元参数二次规划法求解轮轨接触问题,得出了不同接触位置、不同载荷工况下的轮轨接触力,详细分析了轮缘贴靠钢轨过程中接触力的变化规律,为解决轮轨磨耗问题提供了理论依据.

NUMERICAL SIMULATION OF TWO-POINT CONTACT BETWEEN WHEEL AND RAIL

The elastic-plastic contact problem with rolling friction of wheel-rail is solved using the FE parametric quadratic programming method. Thus, the complex elastic-plastic contact problem can be calculated with high accuracy and efficiency, while the Hertz＇s hypothesis and the elastic semi-space assumption are avoided. Based on the ‘one-point＇ contact calculation of wheel-rail, the computational model of ‘two-point＇ contact are established and calculated when the wheel flange is close to the rail. In the case of ‘two-point＇ contact, the changing laws of wheelrail contact are introduced and contact forces in various load cases are carefully analyzed. The main reason of wheel flange wear and rail side wear is found. Lubrication computational model of the wheel flange is constructed. Comparing with the result without lubrication, the contact force between wheel flange and rail decreases, which is beneficial for reducing the wear of wheel-rail.