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机构地区:[1]西南交通大学牵引动力国家重点实验室,四川成都610031
出 处:《交通运输工程学报》2005年第2期19-22,共4页Journal of Traffic and Transportation Engineering
基 金:全国百篇优秀博士学位论文作者专项基金项目(200248);国家自然科学基金项目(50375129);教育部创新团队执行计划项目(IRT0452)
摘 要:为揭示轮轨表面破坏与摩擦温升的内在联系,利用有限元和有限差分混合算法,建立了轮轨滚动接触热耦合计算模型,模拟轮轨滚动、滑动接触温升过程。模型中考虑了轮轨间非稳态热传导、与环境的热对流、热辐射,针对轮轨光滑和不平顺两种接触表面情形,分析了滚动、滑动工况下轮轨界面间的摩擦温升状态。计算结果表明轮轨表面不平顺能使经历短时间滑动的轮轨表面倾向于产生斑点状剥离,长时间滑动与滚动工况下表面不平顺对温度场的影响可忽略,滑动工况的温升较滚动工况的大。In order to study the relation of the damaged surface and temperature resulted from wheel and rail friction, a heat coupling model of rolling and sliding of wheel and rail was put forward to calculate the temperature rise with a combination method of finite element method and finite difference method. In the model, the non-steady heat conduction between the contacting surfaces of wheel and rail, heat convection and heat radiation between wheel and rail and their ambient were tested. The effect of the surface unevenness of wheel and rail on the frictional temperature was analyzed in the rolling and pure sliding states of wheel on rail. The numerical results show that the surface uneveness of wheel and rail can lead to spalling in short sliding, its effect on the temperature rise be ignored in long sliding and rolling.
关 键 词:铁道工程 轮轨摩擦 接触温升 有限元 滚动接触 表面不平顺
分 类 号:U211.5[交通运输工程—道路与铁道工程]
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