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混凝土拉伸断裂特性及动态裂纹演化规律OA

Tensile Fracture Characteristics and Dynamic Crack Evolution Law of Concrete

中文摘要英文摘要

为探究混凝土的拉伸断裂特性和裂纹演化规律,开展了巴西圆盘的准静态劈裂试验和落锤冲击动态劈裂试验,结合有限元-黏聚单元耦合法(finite-cohesive element method,FCEM)模拟分析裂纹扩展过程及力学响应.试验结果表明:准静态加载时,混凝土圆盘试件发生拉伸断裂,圆盘中心形成一条沿加载方向贯穿的主裂纹和少量与其平行的次裂纹,裂纹主要在砂浆内部及骨料-砂浆界面扩展;三维圆盘试件的拉伸性能随厚径比的增大而增强.在动态冲击载荷作用下,试件仍为中心起裂模式,即圆盘中心形成一条沿加载方向的主裂纹,边缘则产生三角状破碎区域.随着落锤释放高度的增加,试件的破坏形态依次表现为:未起裂、起裂未贯穿、起裂贯穿和严重破碎.通过高速摄影获得的不同时刻裂纹长度的结果表明,随着落锤释放高度的降低,裂纹扩展时间延长.数值模拟结果显示,试件的起裂时间随落锤释放高度的增加呈非线性递减,并给出了起裂时间与落锤释放高度关系的经验公式.

To investigate the tensile fracture characteristics and crack evolution mechanisms of concrete,Brazilian disc quasi-static splitting tests and falling weight impact tests were conducted.The crack propagation and mechanical responses were analyzed using the finite cohesive-element method(FCEM).Test results demonstrated that under quasi-static loading,concrete discs exhibited tensile fracture with a primary crack penetrating along the loading direction at the disc center,accompanied by minor parallel secondary cracks.Crack propagation primarily occurred within the mortar matrix and along aggregate-mortar interfaces.The tensile performance of three-dimensional concrete discs exhibited significant enhancement with increasing thickness-diameter ratio.Under dynamic impact loading,specimens maintained a center-initiated fracture pattern,where the main crack propagated along the loading diameter,while triangular crushing zones formed at the edges in contact with testing apparatus.With increasing drop height,the specimens sequentially exhibited four distinct failure modes:no crack initiation,crack initiation without penetration,complete crack penetration,and severe fragmentation.High-speed photography quantified time-dependent crack lengths,demonstrating prolonged crack propagation durations at reduced drop heights.Numerical simulations revealed a nonlinear decreasing trend in crack initiation time versus drop height,with an empirical formula established to describe their relationship.

刘晋豪;李金柱;姚志彦;张力伟

北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081北京理工大学爆炸科学与安全防护全国重点实验室,北京 100081

数理科学

动态加载巴西圆盘黏聚力模型拉伸断裂裂纹演化起裂时间

dynamic loadingBrazilian disccohesive zone modeltensile fracturecrack evolutioncrack initiation time

《高压物理学报》 2026 (2)

18-29,12

10.11858/gywlxb.20251046

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