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CRTS III型板式轨道门型钢筋在温度荷载作用下的力学性能研究

Study on the Mechanical Properties of Door-Shaped Rebar of a CRTS III Slab Track Under Temperature Load.

作者信息

Han Marui, Zeng Zhiping, Li Qiuyi, Li Peicheng, Wei Wei, Wang Weidong, Shuaibu Abdulmumin Ahmed

机构信息

School of Civil Engineering, Central South University, Changsha 410075, China.

MOE Key Laboratory of Engineering Structures of Heavy Haul Railway (Central South University), Changsha 410075, China.

出版信息

Materials (Basel). 2025 Apr 2;18(7):1612. doi: 10.3390/ma18071612.

Abstract

CRTS III (China Railway Track System) slab track is a typical multi-layer composite structure. Door-shaped rebar is an important connecting component. Studying its service characteristics is crucial for disease prevention and control. To investigate the mechanical properties of door-shaped rebar under multi-factor coupling, a three-dimensional finite element model was developed and validated with full-scale tests. Then, considering the initial defects of self-compacting concrete (SCC), interlayer cracks and other damages, the mechanical properties of door-shaped rebar of a CRTS III slab track under temperature load were studied. The results show that under the action of an extreme temperature gradient, the maximum vertical displacement of the track slab occurs in the middle and corner positions of the slab with the positive temperature gradient, with displacement values of 0.87 mm and -0.99 mm respectively. Under positive and negative temperature gradients, the stress of the door-shaped rebar at the interface between the track slab and the SCC layer is 12.9 MPa and 16.5 MPa, respectively. When considering the conditions of the SCC slurry layer, the stress of the door-shaped rebar in the SCC layer under the action of a temperature gradient is generally in an increasing state. When there is a crack at the interface of the SCC layer, the stress of the door-shaped rebar unit in the crack area changes significantly, and the crack at the edge of track slab has the greatest impact on the stress of the door-shaped rebar under the positive temperature gradient, which is 157.9 MPa. The research results provide a theoretical basis for disease control.

摘要

CRTS III型(中国铁路轨道系统)板式轨道是一种典型的多层复合结构。门型钢筋是重要的连接部件。研究其服役特性对病害防治至关重要。为研究多因素耦合作用下门型钢筋的力学性能,建立了三维有限元模型并通过足尺试验进行验证。然后,考虑自密实混凝土(SCC)的初始缺陷、层间裂缝等损伤,研究了CRTS III型板式轨道门型钢筋在温度荷载作用下的力学性能。结果表明,在极端温度梯度作用下,轨道板的最大竖向位移出现在正温度梯度时板的中部和角部位置,位移值分别为0.87mm和-0.99mm。在正负温度梯度作用下,轨道板与SCC层界面处门型钢筋的应力分别为12.9MPa和16.5MPa。考虑SCC浆体层情况时,温度梯度作用下SCC层内门型钢筋的应力总体呈增大状态。当SCC层界面存在裂缝时,裂缝区域门型钢筋单元的应力变化显著,轨道板边缘裂缝在正温度梯度作用下对门型钢筋应力影响最大,为157.9MPa。研究结果为病害防治提供了理论依据。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ab5f/11990785/6fa09445fff3/materials-18-01612-g001a.jpg

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