微胀填料冻胀变形分析模型

Yangsheng Ye, Xiaoyan Du, Qianli Zhang, Jinfei Chai
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引用次数: 0

摘要

随着高速铁路的快速发展,高速铁路对路基冻胀变形控制提出了新的要求。常规非冻胀填料中的微胀不能满足高速铁路对高平整度和稳定性的要求,威胁高速列车的运行安全。针对中国季节性多年冻土区路基填料的微胀问题,结合室内试验和理论分析,分析了微胀填料冻胀物理特性的影响因素。揭示了骨架颗粒对冻胀形成的影响。对微胀填料冻胀发展机理进行了研究。在此基础上,基于最小能量原理,推导了微胀填料的冻胀计算公式,建立了微胀填料的冻胀变形分析模型。此外,通过室内试验验证了该模型的有效性。该研究为铁路路基冻胀变形的控制提供了理论参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Frost Heave Deformation Analysis Model for Microheave Filler
With the rapid development of high-speed railway, high-speed railways pose new requirements on subgrade frost heave deformation control. Microheave in conventional non-frost-heave filler cannot meet the requirements of high-speed railways for high levels of smoothness and stability and threaten high-speed train operation safety. To solve problems of seasonal permafrost region subgrade filler microheave in China, combined laboratory test and theoretical analysis, this research analyzed the physical properties of frost heave influencing factors for microheave filler. The influence of skeleton grain during frost heave formation is revealed. The microheave filler frost heave development mechanism is investigated. On this basis, based on the principle of minimum energy, a frost heave calculation formula for microheave filler is deduced, and a frost heave deformation analysis model for microheave filler is created. In addition, the effectiveness of the model is demonstrated in an indoor test. This study provides a theoretical reference for controlling the frost heaving deformation of railway subgrade.
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