钢筋混凝土墩柱侧向冲击损伤的评估方法OA
Damage assessment method of RC piers under lateral impact loads
为了研究钢筋混凝土(reinforced concrete,RC)墩柱在侧向冲击荷载作用下的动力响应、评估其损伤程度,采用显式动力分析软件 LS-DYNA 建立 RC 墩柱侧向冲击的精细化有限元模型;基于 RC 墩柱侧向冲击试验,验证了有限元模型的有效性;探讨了冲击速度、冲击质量、冲击位置和墩柱轴压比对 RC 墩柱的动力响应和损伤演变的影响规律;基于剩余承载力和残余位移,提出了相对残余位移和相对剩余承载力指标,确定了 RC 墩柱发生轻度损伤、中度损伤、重度损伤和倒塌对应的相对剩余承载力值,并建立了不同冲击位置和墩柱轴压比下相对残余位移和相对剩余承载力的映射关系,进而建立 RC 墩柱损伤评估方法.研究结果表明:RC 墩柱在柱中位置遭受冲击的主要表现为弯剪破坏,而柱底位置遭受冲击的主要表现为局部剪切破坏;随着冲击速度和冲击质量的增加,残余位移显著增大,剩余承载力显著下降;轴压比在 0.2~0.4 范围内对于冲击力和位移峰值的影响有限,但对柱中冲击时的残余位移产生显著影响;柱中位置和柱底位置受侧向冲击时,相对残余位移与相对剩余承载力之间存在着近似线性的关系,相对残余位移越大,相对剩余承载力越小;在相对残余位移相等的情况下,柱底冲击比柱中冲击的相对剩余承载力更低,承载性能下降幅度更大.
To investigate the dynamic response and damage assessment of reinforced concrete(RC)piers under lateral impact loads,high-fidelity finite element models of RC piers under lateral impact were developed using the explicit dynamic analysis software LS-DYNA.The finite element models were calibrated by using the test data from lateral impact tests of RC piers.The influences of impact velocity,impact mass,impact location,and axial compression ratio on the dynamic response and damage evolution of RC piers were investigated.Based on the residual load-carrying capacity and residual displacement,the indicators of relative residual deformation and relative residual load-carrying capacity were proposed.The corresponding values of relative residual load-carrying capacity for slight damage,moderate damage,severe damage,and collapse were determined.Moreover,a mapping relationship between relative residual deformation and relative residual load-carrying capacity of RC piers with various axial compression ratios and impacted at different impact locations was established.A damage assessment method for RC piers under impact load was proposed based on the mapping relationship.The research results indicate that RC piers subjected to impact at the mid-column position primarily exhibit flexural-shear failure,whereas local shear failure predominantly occurs when the impact is applied close to the column base.As the impact velocity and mass increase,the residual displacement increases significantly,while the residual bearing capacity decreases.The axial compression ratio within the range from 0.2 to 0.4 has a limited effect on the peak impact force and peak displacement but significantly affects the residual displacement when the impact occurs at the mid-column.When the mid-column position and the column base position are subjected to lateral impact,there exists an approximate linear relationship between relative residual deformation and relative residual load-carrying capacity,such that the greater the relative residual deformation,the smaller the relative residual load-carrying capacity.Under conditions of equal relative residual deformation,the relative residual load-carrying capacity of the base-column impact is lower than that of the mid-column impact,with a more significant decrease in load-carrying capacity.
陈泓宇;李华伟
广州大学工程抗震研究中心,广东 广州 510006广州大学工程抗震研究中心,广东 广州 510006||广州大学工程抗震减震与结构安全教育部重点实验室,广东 广州 510006
数理科学
桥梁工程损伤评估RC墩柱侧向冲击
bridge engineeringdamage assessmentRC pierlateral impact
《爆炸与冲击》 2026 (4)
131-145,15
国家自然科学基金(52308486)广州市基础与应用基础研究(2023A04J1651)
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