砂岩多周期累积冻融变形特性及其微观机制试验研究

doi:10.16285/j.rsm.2024.0418

岩土力学 ›› 2025, Vol. 46 ›› Issue (2): 389-401.doi: 10.16285/j.rsm.2024.0418

砂岩多周期累积冻融变形特性及其微观机制试验研究

吕志涛¹，朱小宝¹，罗嗣成²，夏才初³，曾祥太¹

1. 南昌大学工程建设学院，江西南昌 330031；2. 江西中煤建设集团有限公司，江西南昌 330001； 3. 宁波大学岩石力学研究所，浙江宁波 315211

收稿日期:2024-04-08 接受日期:2024-07-19 出版日期:2025-02-10 发布日期:2025-02-10
通讯作者: 曾祥太，男，1991年生，博士，讲师，主要从事岩石力学与隧道工程方面的教学和科研工作。E-mail: zengxiangtai@ncu.edu.cn
作者简介:吕志涛，男，1990年生，博士，副教授，主要从事岩石力学与地下工程方面的教学和科研工作。E-mail: lvzhitao90@126.com
基金资助:
国家自然科学基金（No. 52108370）；江西省自然科学基金（No. 20212BAB214062，No. 20224BAB204061）。

Experiment on cumulative freeze-thaw deformation characteristics and microscopic mechanism of sandstone under freeze-thaw cycles

LYU Zhi-tao¹, ZHU Xiao-bao¹, LUO Si-cheng², XIA Cai-chu³, ZENG Xiang-tai¹

1. School of Infrastructure Engineering, Nanchang University, Nanchang, Jiangxi 330031, China; 2. Zhongmei Engineering Group Ltd., Nanchang, Jiangxi 330001, China; 3. Institute of Rock Mechanics, Ningbo University, Ningbo, Zhejiang 315211, China

Received:2024-04-08 Accepted:2024-07-19 Online:2025-02-10 Published:2025-02-10
Supported by:
This work was supported by the National Natural Science Foundation of China (52108370) and the Jiangxi Provincial Natural Science Foundation (20212BAB214062, 20224BAB204061).

摘要/Abstract

摘要： 寒区岩石常因经受冻融循环作用而产生冻融变形累积，对工程稳定产生不利影响，目前对岩石累积冻融变形及其危害认识不足。因此，基于砂岩冻融循环试验，研究砂岩多周期累积变形特性，并探究了冻结温度、降温速率、饱和度、孔隙率对其累积冻融变形特性的影响。利用光学显微镜、扫描电镜、压汞法对冻融作用前后砂岩微观孔裂隙分布、孔径分布演化进行测试，以揭示砂岩宏观冻融变形特性的微观机制。结果表明，砂岩累积冻胀应变和残余应变均远大于首周期冻胀应变和残余应变，寒区工程以单周期冻融应变为依据进行工程响应分析存在显著风险，以累积冻融变形为依据更合理。冻结温度降低、降温速率增大或孔隙率增大时，砂岩累积冻胀应变和残余应变均增大。冻融循环作用下，砂岩内部微观孔隙、裂隙逐渐发育，颗粒间的连接也逐渐松散，内部孔隙结构发生变化，部分孔径范围内孔隙明显增多，孔隙总体积也相应增大，产生无法恢复的塑性变形，从而产生宏观上随冻融循环次数逐渐增长的累积冻胀应变和残余应变。

关键词: 砂岩, 累积冻融变形, 多周期, 残余应变, 微观机制

Abstract: Freeze-thaw (FT) deformation accumulates in rocks in cold regions under cyclic FT conditions, adversely affecting engineering stability. Currently, understanding of cumulative FT deformation and its potential hazards in rocks is insufficient. Therefore, this study investigates the cumulative FT deformation characteristics of sandstone over multiple cycles and examines the effects of factors such as freezing temperature, cooling rate, saturation, and porosity through cyclic FT experiments. Optical microscopy, scanning electron microscopy, and mercury intrusion methods are used to analyze the distribution of micro pores, cracks, and pore sizes in sandstone before and after FT action, revealing the microscopic mechanism underlying macroscopic FT deformation characteristics of sandstone. Results indicate that the cumulative frost heave strain and residual strain in sandstone are significantly greater than those observed in the first cycle. Significant risk exists in cold region engineering response analysis based on single-cycle FT strain. Thus, using cumulative FT deformation as a basis is more reasonable. As freezing temperature decreases, cooling rate increases, or porosity increases, both cumulative frost heave strain and residual strain in sandstone increase. During FT cycles, micro pores and cracks in sandstone gradually develop, and connections between particles loosen. The internal pore structure changes, with a significant increase in the number of pores within certain pore size ranges. The total pore volume increases, resulting in irreversible plastic deformation. Consequently, macroscopic cumulative frost heave strain and residual strain increase gradually with the number of FT cycles.

Key words: sandstone, cumulative freeze-thaw deformation, multiple cycles, residual strain, microscopic mechanism

中图分类号: TU 454

吕志涛, 朱小宝, 罗嗣成, 夏才初, 曾祥太, . 砂岩多周期累积冻融变形特性及其微观机制试验研究[J]. 岩土力学, 2025, 46(2): 389-401.

LYU Zhi-tao, ZHU Xiao-bao, LUO Si-cheng, XIA Cai-chu, ZENG Xiang-tai, . Experiment on cumulative freeze-thaw deformation characteristics and microscopic mechanism of sandstone under freeze-thaw cycles[J]. Rock and Soil Mechanics, 2025, 46(2): 389-401.

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砂岩多周期累积冻融变形特性及其微观机制试验研究

Experiment on cumulative freeze-thaw deformation characteristics and microscopic mechanism of sandstone under freeze-thaw cycles

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