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主轴式滚磨光整加工弹塑性接触力修正计算 被引量:3
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作者 王娜 杨胜强 +2 位作者 赵婷婷 曹波 赵恺 《表面技术》 EI CAS CSCD 北大核心 2020年第8期333-341,共9页
目的基于对主轴式滚磨光整加工弹塑性接触力修正系数研究的思路,探究主轴式滚磨光整加工过程中工件及滚抛磨块之间的碰撞接触力与碰撞接触速度之间的定量关系。方法采用EDEM系统中的Hertz-Mindlin接触模型进行模拟仿真,首先以Hertz接触... 目的基于对主轴式滚磨光整加工弹塑性接触力修正系数研究的思路,探究主轴式滚磨光整加工过程中工件及滚抛磨块之间的碰撞接触力与碰撞接触速度之间的定量关系。方法采用EDEM系统中的Hertz-Mindlin接触模型进行模拟仿真,首先以Hertz接触理论以及牛顿第二定律为基础,推导弹性正面碰撞接触力与碰撞接触速度之间的关系表达式,然后在Thornton弹塑性假设的基础上建立滚抛磨块与工件之间弹塑性接触力与碰撞接触速度之间的关系表达式,并将不同转速下工件与滚抛磨块之间的弹塑性正面碰撞接触力计算结果与实验测试结果进行对比分析,最后通过量化结构变位系数进一步修正弹塑性接触力计算公式。结果基于Hertz接触理论、牛顿第二定律以及Thornton接触力学模型,推导了出速度修正系数表达式,且速度修正系数在0.32~0.58之间。同时考虑结构变位修正系数,基于Matlab,经过试算求得结构的变位修正系数在0.50~2.41之间,修正后的弹塑性接触力计算结果与实验测试结果的相对误差在0.122%~8.901%之间。结论滚抛磨块与工件之间的弹塑性接触力计算公式,理论依据充分,参数明确,可以为滚磨光整加工实际工艺制定提供可信的计算方法。 展开更多
关键词 主轴式滚磨光整加工 EDEM仿真模拟 HERTZ接触理论 弹塑性接触力 修正系数
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Mechanical behavior and deformation mechanism of ballast bed with various fouling materials 被引量:7
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作者 ZHANG Zhi-hai XIAO Hong +2 位作者 WANG Meng LIU Guang-peng WANG Hao-yu 《Journal of Central South University》 SCIE EI CAS CSCD 2021年第9期2857-2874,共18页
In order to study the interaction between various fouling particles and ballast,a multi-layer and multi-scale discrete element model(DEM)including the sleeper,ballast bed and the surface layer of subgrade was develope... In order to study the interaction between various fouling particles and ballast,a multi-layer and multi-scale discrete element model(DEM)including the sleeper,ballast bed and the surface layer of subgrade was developed.Two typical fouling particles,the hard particles(sand)and soft ones(coal fines),are considered.A support stiffness test of the ballast bed under various fouling conditions was conducted to calibrate the microscopic parameters of the contact model.With the model,the influence of fouling particles on the mechanical behavior and deformation of the ballast bed was analyzed from macro and micro perspectives.The results show that the increase in the strength of the fouling particles enlarges the stiffness of the ballast bed.Hard particles increase the uniformity coefficient of the contact force bondγof ballast by 50.4%.Fouling particles increase the average stress in the subgrade,soft particles by 2 kPa and hard particles by 1 kPa.Hard particles can reduce the elasticity,plastic deformation and energy dissipation in the track structure.As the fouling particle changes from hard to soft,the proportion of the settlement in ballast bed increases to 40.5%and surface layer of swbgrade settlement decreases to 59.5%.Thus,the influence of fouling particles should be considered carefully in railway design and maintenance. 展开更多
关键词 ballasted track fouling material discrete element method contact force bond elastic-plastic deformation
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