带50%穿层柱的RC框架结构抗震设计研究
引用文献:
吴汉福 付仰强 张松 韩明明. 带50%穿层柱的RC框架结构抗震设计研究[J]. 建筑结构,2022,48(01):63-69.
WU Hanfu FU Yangqiang ZHANG Song HAN Mingming. Study on seismic design of RC frame structure with cross-floor columns accounting for 50% of total columns[J]. Building Structure,2022,48(01):63-69.
摘要:通过研究不同开洞区域的带50%穿层柱的框架结构抗震性能,提出一种基于框架柱地震剪力分担比例的设计调整方法,并进行了调整前后结构弹性及弹塑性抗震性能的对比分析。由于楼板开洞形成穿层柱,穿层柱抗侧刚度偏小,按照计算刚度分担的剪力偏小,一旦进入屈服,穿层柱弹塑性开展较快。弹性设计阶段,应通过调整梁柱截面,满足小震作用下设计指标要求,使穿层柱承担的楼层剪力比例不低于40%,宜控制在45%左右,结构的弹塑性性能满足预期要求。按照普通柱与穿层柱的地震剪力分担相当的原则,进行穿层柱的设计地震作用调整,提高了穿层柱的弹塑性承载力,增加了穿层柱在弹塑性阶段的抗侧贡献,改善了普通柱的破坏程度。
关键词:穿层柱;框架结构;抗震设计;性能评估
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[4] 包浩杉.楼板开洞对结构地震水平力传递的影响及对策[J].建筑结构,2018,48(S1):311-315.
[5] 王庆扬,胡守营,张劲,等.楼板局部不连续对结构抗震性能的影响分析[J].建筑结构,2008,38(8):50-52.
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Study on seismic design of RC frame structure with cross-floor columns accounting for 50% of total columns
Abstract: By studying the seismic performance of the frame structure with cross-floor columns accounting for 50% of total columns in different opening areas, the design method based on the seismic shear sharing ratio of frame columns was proposed, and the elastic and elastic-plastic seismic performances of the structure before and after the design was compared and analyzed. Because of the opening in the floor slab to form cross-floor columns, the lateral stiffness of the cross-floor column is small, and so was the shear force shared. Once the cross-floor column yields, the elastic-plastic development speed of the cross-floor column is fast. In the elastic design stage, the beam column section should be designed to meet the design index requirements under the frequent earthquake, so that the floor shear ratio borne by the cross-floor column is not less than 40% and controlled at about 45%, and the elastic-plastic performance of the structure meets the expected requirements. According to the principle that the seismic shear force of the common column is equal to that of the cross-layer column, the design earthquake action of the cross-floor column was adjusted, which improves the elastic-plastic bearing capacity, increases the seismic contribution of the cross-floor column in the elastic-plastic stage, and improves the damage of the common column.
Keywords: cross-floor column; frame structure; seismic design; performance evaluation
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