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路基泡沫轻质混凝土动力滞回特性与累积损伤研究OA

Study on Dynamic Hysteretic Behavior and Cumulative Damage of Foamed Lightweight Concrete for Subgrade Applications

中文摘要英文摘要

为探究泡沫轻质混凝土(FLC)作为铁路路基填料的动力稳定性,通过动三轴循环加载试验,系统分析滞回圈演化规律与能量耗散特征.结果表明:动偏应力阈值是控制 FLC动力响应的关键变量,可界定累积塑性应变的"破坏模式"与"稳定模式";破坏模式下,试样经历初始压密、稳态发展和加速失稳三个阶段,滞回圈分布密度呈"初始离散-中期致密-末期再离散"的非单调演化,几何形态由宽大向狭长演变后再趋于张开;稳定模式下,材料经历初期瞬态调整后迅速进入塑性安定状态,滞回圈呈闭合梭形;无量纲归一化分析揭示,滞回圈由"非闭合型"向"闭合梭形/弓形"演变的微观机制,即加载初期以骨架重组塑性功为主,稳定期转为以基体黏性阻尼耗能为主,并表现出优于常规填料的工程适宜性.

To investigate the dynamic stability of foamed lightweight concrete(FLC)as a railway subgrade filler,cyclic triaxial tests were conducted to systematically analyze the evolution of hysteretic loops and energy dissipation characteristics.The results show that:the dynamic deviatoric stress threshold is a key parameter governing the dynamic response of FLC,which can distinguish between two distinct modes of cumulative plastic strain:a"failure mode"and a"stable mode."Under the failure mode,the specimen undergoes three stages:initial compaction,steady development,and accelerated instability.The density distribution of hysteretic loops exhibits a non-monotonic evolution—initially scattered,then compacted in the mid-stage,and scattered again at the end,while the geometric shape evolves from broad to narrow and finally re-opens.In contrast,under the stable mode,the material rapidly transitions from an initial transient adjustment into a state of plastic shakedown,with hysteretic loops taking a closed spindle-like form.Dimensionless normalization analysis reveals the micro-mechanisms underlying the transition of hysteretic loops from"non-closed"to"closed spindle-or bow-shaped"patterns:during the early loading phase,energy dissipation is dominated by plastic work associated with skeleton reorganization;in the stabilization phase,it shifts to viscous damping within the matrix.Furthermore,FLC demonstrates superior engineering suitability compared to conventional backfill materials.

陈文斗;谢庆;赵文辉

中铁南方投资集团有限公司,广东 深圳 518000中铁南方投资集团有限公司,广东 深圳 518000兰州交通大学土木工程学院,兰州 730070

建筑与水利

铁路路基路基填筑泡沫轻质混凝土滞回演化循环荷载微观机理适宜性

railway subgradesubgrade fillingfoamed lightweight concretehysteretic evolutioncyclic loadingmicroscopic mechanismsuitability

《路基工程》 2026 (3)

32-37,6

10.13379/j.issn.1003-8825.202601056

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