Influence analysis of mortar elastic modulus to CRTS III slab track vertical dynamic response

机译：砂浆弹性模量对CRTS III板式轨道垂直动力响应的影响分析

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A train-CRTS III slab track coupling dynamic model was proposed to study the dynamic performance of the system. Rail was modeled as space beam element. Both slab and HGT layer were modeled as plate element respectively. The vertical and lateral connections between rail, slab, HGT layer, and subgrade were modeled as spring-damper element. The vibration matrix equation of the system was established on the basis of the principle of the total potential energy with stationary value in elastic system dynamics and the rule of "set-in-right-position" for formulating system matrices. The influence of mortar elastic modulus to CRTS III slab track vertical dynamic response was calculated when the train runs at 350 km/h. The results show that the larger of mortar elastic modulus, the faster the vibration between rail and slab decays, and the slower the vibration between slab and HGT layer decays.

机译：建议采用火车CRT III板式轨道耦合动态模型来研究系统的动态性能。轨道被建模为空间梁元件。两个板和HGT层分别被建模为板元件。轨道，板坯，HGT层和路基之间的垂直和横向连接被建模为弹簧阻尼元件。基于弹性系统动态的总势能的总势能的原理和用于制定系统矩阵的“设定右侧位置”的规则，建立系统的振动矩阵方程。当火车在350 km / h处运行时，计算砂浆弹性模量对CrTS III板轨道垂直动态响应的影响。结果表明，砂浆弹性模量越大，轨道和板坯之间的振动越快，板坯和HGT层之间的振动越慢。

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《International Conference on Civil Engineering, Architecture and Building Materials》|2012年||共4页
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Zhiping Zeng; Xuesong Wang; Wenrong Chen; Guangcheng Long;
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中图分类 TB3-53;
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CRTS III slab track; Mortar; Elastic modulus; Vertical vibration; Finite element method;

机译：CRTS III平板轨道;砂浆;弹性模量;垂直振动;有限元法;

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Influence analysis of mortar elastic modulus to CRTS III slab track vertical dynamic response

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