考虑湿化时间与尺寸效应的堆石颗粒强度模型

doi:10.3724/1000-6915.jrme.2025.0339

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摘要堆石料的湿化变形会加剧堆石坝蓄水期的不协调变形，甚至引发坝体裂缝，研究其特性对堆石坝变形控制及保障大坝安全具有重要意义。湿化变形是非瞬时变量，且其与流变存在耦联关系，因此研究堆石料湿化变形的时间效应至关重要。宏观层面的堆石料湿化变形及其发展过程已有大量试验研究，而堆石颗粒在完整湿化过程中的破碎强度变化规律仍缺乏系统研究。通过对软、硬2种岩性的堆石颗粒进行不同湿化时间后的室内压缩试验，研究湿化时间效应对颗粒破碎和强度特性的影响。发现不同粒径的颗粒浸水后均表现出明显的尺寸效应和湿化时间效应，堆石颗粒的平均破碎强度随粒径的增大和湿化时间的延长而减小；处于干燥和任意湿化状态的颗粒破碎强度均服从Weibull分布，且尺寸效应随湿化时间的延长而减弱；在Weibull尺寸效应模型的基础上引入劣化系数，建立同时考虑湿化时间和尺寸效应参数的堆石颗粒特征破碎强度预测模型，从而为堆石料湿化变形的研究提供理论参考。

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	周雄雄1
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	王晋伟3
	陈博文1
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关键词 ：岩石力学, 堆石料, 湿化时间效应, 颗粒破碎, 破碎强度, 尺寸效应

Abstract：The wetting deformation of rockfill materials exacerbates the uncoordinated deformation of rockfill dams during the water storage period and may even lead to cracks in the dam structure. Investigating its characteristics is crucial for controlling deformation in rockfill dams and ensuring their safety. Wetting deformation is not an instantaneous variable; rather, it exhibits a coupling relationship with creep. Therefore, studying the time effect of wetting deformation in rockfill materials is essential. While numerous experimental studies have explored the wetting deformation and development processes of rockfill materials at the macro level, systematic research on the variation of crushing strength in rockfill particles throughout the complete wetting process remains insufficient. In this study, indoor compression tests were conducted on rockfill particles from both soft and hard lithologies after different wetting durations to assess the influence of wetting time on particle breakage and strength characteristics. The results revealed that particles of varying sizes exhibited significant size and wetting time effects upon immersion in water. Specifically, the average breaking strength of particles within each size group decreased as particle size and wetting duration increased. The particle breaking strength, in both dry and various wetting states, follows a Weibull distribution, with the size effect diminishing as wetting time extends. Based on the Weibull size effect model, this paper introduces a deterioration coefficient and establishes a predictive model for the characteristic crushing strength of rockfill particles, incorporating both wetting time and size effect parameters. This model provides a theoretical reference for further research on the wetting deformation of rockfill materials.

Key words： rock mechanics rockfill material wetting time effect particle crushing crushing strength size effect

引用本文:

周雄雄1，2，李若婷1，2，王晋伟3，陈博文1，2. 考虑湿化时间与尺寸效应的堆石颗粒强度模型[J]. 岩石力学与工程学报, 2025, 44(11): 2931-2942.
ZHOU Xiongxiong1, 2, LI Ruoting1, 2, WANG Jinwei3, CHEN Bowen1, 2. A strength model of rockfill particles considering wetting time and size effect. , 2025, 44(11): 2931-2942.

链接本文:

https://rockmech.whrsm.ac.cn/CN/10.3724/1000-6915.jrme.2025.0339 或 https://rockmech.whrsm.ac.cn/CN/Y2025/V44/I11/2931

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