1) wheel/track contact load
轮轨接触荷载
2) Wheel/rail contact
轮轨接触
1.
To identify the characteristics of wheel/rail contact irregularity in crossing zone of high-speed turnouts,a numerical model was set up based on the least distance searching method and analyzing the structures of point rail and wing rail.
为揭示高速道岔辙叉区不平顺特性,通过分析心轨、翼轨的结构特点,采用最小距离搜索法,建立了辙叉区轮轨接触计算模型,并以350 km/h客运专线42号高速道岔为例,分析了不同藏尖结构和车轮踏面的轮轨接触不平顺规律。
2.
Studies on the frictional temperature of wheel/rail contact are briefly reviewed.
模型考虑了轮轨与环境间的热辐射和热对流边界条件、轮轨接触区的相互换热以及轮轨材料热物性参数随温度的变化。
3.
Results,such as the wheel/rail contact force,contact status and wheel/rail stress distribu-tion,are obtained.
通过弹塑性接触计算,得到了大量的轮轨接触力、接触状态和轮轨应力的数据,根据计算结果分析比较了机车轮轨接触和车辆轮轨接触的区别,对轮缘贴靠钢轨形成两点接触时的接触情况进行了初步分析。
3) wheel-rail contact
轮轨接触
1.
Creep traits analysis of wheel-rail contact about independently rotating wheels;
独立旋转车轮轮轨接触蠕滑特性分析
2.
Through using the method of finite element parametric quadratic programming,the wheel-rail contact force was coustructed in different contact area and working performances with various loads.
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。
4) contact load
接触载荷
1.
In order to investigate the fractal behavior of friction signal and the change regularity of its fractal dimension with sliding velocity and contact load,friction and wear tests of pin(GCr15 steel)-on-disc(C45 steel) were carried out on an MMW-1 type wear tester.
在立式万能摩擦磨损试验机上对GCr15/45#钢摩擦副进行不同接触载荷和滑动速度下的摩擦磨损试验,对初始滑动距离1000 m内的摩擦系数信号进行数据采集,运用结构函数测度方法对摩擦系数信号进行分形表征,计算不同载荷和速度下的分形维数,研究摩擦信号的分形维数随载荷和速度的变化规律。
2.
The results show that the interfacial temperature is 240-560 ℃, the maximum contact load can reach 15.
研究结果表明:接触界面温度变化范围为240~560℃,接触载荷能够达到15。
3.
Nondimensional contact load has a larger influence on the conductive than the radiant conductivity,and for the non-contact area decreasing as the non-dimensional contact load increasing,the conductive conductivity increasing quickly and the radiant conductivity decreasing slowly.
数值计算表明:当接触表面的温度高于400K时,辐射的影响已不可忽略;载荷对接触导热热导的影响明显大于对辐射热导的影响,导热热导随载荷的增大迅速增大,而辐射热导以及等效辐射系数均随载荷的增大有所减小,这主要是由接触界面的空隙面积减少造成的;在接触面几何参数中,粗糙峰等效斜率对等效辐射系数起着主导作用,在相同的量纲1的载荷情况下,粗糙峰等效斜率越小,等效辐射系数越大;通过对本文提出的等效辐射系数的误差检验,结果表明其最大相对误差为10-3数量级,说明等效辐射系数仅仅为接触界面黑度、几何特性和接触载荷的函数,而与接触界面温度水平和温差无关,同时也间接证明了本文提出的等效辐射系数可以较为合理地描述接触界面间的辐射换热强度。
5) wheel-rail dynamic forces
轮轨动荷载
1.
The changing of track stiffness affects wheel-rail dynamic forces and track dynamic geometry performance simultaneously.
轨道刚度变化同时影响着轮轨动荷载和轨道动态几何形位的变化。
补充资料:观自在菩萨如意轮念诵仪法轨
【观自在菩萨如意轮念诵仪法轨】
(书名)如意轮菩萨念诵法之别名。
(书名)如意轮菩萨念诵法之别名。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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