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机构地区:[1]浙江大学空间结构研究中心,杭州310058 [2]浙江大学建筑设计研究院,杭州310027
出 处:《振动与冲击》2012年第6期160-165,共6页Journal of Vibration and Shock
基 金:国家科技支撑计划项目(2006BAJ03A03-03);国家自然科学基金项目(50638050)资助
摘 要:强震作用下网格结构杆件的破坏形式为受拉屈服和受压屈曲,而常用的理想弹塑性模型却不能考虑杆件受压屈曲的情况。使用LS-DYNA软件对不同长细比圆钢管杆单元的受压极限承载力、屈曲前后平衡路径以及卸载路径进行计算,并分析拉压往复作用下的滞回规律。通过统计这些杆单元的轴力、伸长量与长细比之间的关系,提出了一个能同时考虑受拉屈服和受压屈曲的圆钢管杆单元的等效弹塑性滞回模型。进一步将该等效弹塑性模型应用于一球面网壳结构的罕遇地震作用时程计算,发现杆件的破坏形式和结构薄弱区域与理想弹塑性模型的结果有明显区别,也反映了该等效弹塑性滞回模型的有效性。Under strong earthquakes,the failure modes of bars in grid structures are yielding in tension and buckling in compression.However,the ideal elasto-plastic model conventionally used in seismic computation is not able to consider buckling of compressive members.By means of LS-DYNA software,the ultimate compressive loads,equilibrium paths before and after buckling,and unloading paths of steel circular-tube bars with different slenderness ratios were calculated,and their hysteretic properties under reverse tension-compression loadings were also analyzed.Based on the analysis of the statistical relationships between axial forces,axial elongations and slenderness ratios of these bar specimens,an equivalent elasto-plastic hysteretic model of steel circular-tube bar elements considering both tensile yielding and compressive buckling simultaneously was put forward.This equivalent elasto-plastic hysteretic model was further used in the time-history response computation of an illustrative lattice spherical shell under seldom occurring earthquake.The results indicated that the failure patterns of the members and the distribution of structural weak regions are obviously different from those obtained with the ideal elasto-plastic model,and the proposed equivalent elasto-plastic hysteretic model is effective.
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