动力湿化作用下土体水分迁移规律试验研究OA
Experimental study on moisture migration law of soils under dynamic slaking conditions
揭示动力湿化作用下(dynamic slaking,D-S)路基土的水分迁移规律对于分析重载铁路翻浆冒泥病害成因至关重要.通过自主开发水-力联合测试系统,开展路基土的动力湿化三轴试验,通过电阻率特征分析水分迁移过程,揭示动力影响水分迁移过程的机理.建立了基于归一化电阻率的含水率计算方法,分析了动应力和干密度对水分迁移规律的耦合作用机制.研究发现,动力湿化作用下土样电阻率出现了"递减-递增-稳定"的三阶段演化规律,验证了水-力联合测试系统在动力湿化试验的适用性.随动应力升高,水分迁移速度降低了约11%,土样平衡含水率降低了约0.8%;随着干密度升高,土样前期含水率增速提高,较大干密度土样内部孔隙产生了抽吸现象,加速了底部水分向上迁移.本研究成果为完善土体动力湿化水分迁移模型、揭示路基翻浆冒泥病害发病机理提供了试验依据.
Understanding the moisture migration mechanisms in railway subgrade soils under dynamic slaking(D-S)is critical for elucidating the formation mechanisms of frost heave and mud pumping defects in heavy-haul railways.This study employs an autonomously developed hydromechanical coupled testing system to conduct dynamic slaking triaxial tests on subgrade soils.By analyzing resistivity characteristics,we investigate the moisture migration processes and reveal the underlying mechanisms of dynamic effects on moisture transport.A normalized resistivity-based water content calculation method is established to analyze the coupled interaction mechanisms of dynamic stress and dry density on moisture migration.Key findings include as follows:(1)Soil sample resistivity exhibits a three-stage evolution pattern("decreasing-increasing-stabilizing")under dynamic slaking,validating the applicability of the hydromechanical coupling testing system for dynamic slaking experiments;(2)With increasing dynamic stress,moisture migration velocity decreases by approximately 11%,while equilibrium water content reduces by about 0.8%;(3)Higher dry density accelerates initial water content growth,with capillary suction phenomena observed in high-density samples,promoting upward moisture migration from the bottom.These findings provide experimental evidence for improving dynamic slaking moisture migration models and advancing the understanding of frost heave and mud pumping pathogenesis in railway subgrades.
马德良;韩弘驰;董静;李腾;冯怀平;杨志浩
石家庄铁道大学省部共建交通工程结构力学行为与系统安全国家重点实验室,河北 石家庄 050043石家庄铁道大学土木工程学院,河北 石家庄 050043石家庄铁道大学土木工程学院,河北 石家庄 050043石家庄铁道大学土木工程学院,河北 石家庄 050043石家庄铁道大学土木工程学院,河北 石家庄 050043石家庄铁道大学省部共建交通工程结构力学行为与系统安全国家重点实验室,河北 石家庄 050043
建筑与水利
动力湿化水分迁移规律水-力联合测试路基土
dynamic slakingmoisture migrationhydro-mechanical joint apparatussubgrade soil
《岩土工程学报》 2026 (2)
280-290,11
国家自然科学基金项目(52308458,52302518)国家自然基金联合基金项目(U22A20233)中央引导地方项目(236Z5409G)河北省自然科学基金项目(E2023210054)This work was supported by National Natural Science Foundation of China(Grant Nos.52308458,52302518,U22A20233),Central Guidance Local Project(Grant No.236Z5409G),and Natural Science Foundation of Hebei Province Project(Grant No.E2023210054).
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