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Post-fire cyclic behavior of reinforced concrete shear walls 被引量:5
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作者 刘桂荣 宋玉普 曲福来 《Journal of Central South University》 SCIE EI CAS 2010年第5期1103-1108,共6页
The effects of fire exposure,reinforcement ratio and the presence of axial load under fire on the seismic behavior of reinforced concrete(RC) shear walls were investigated.Five RC shear walls were tested under low cyc... The effects of fire exposure,reinforcement ratio and the presence of axial load under fire on the seismic behavior of reinforced concrete(RC) shear walls were investigated.Five RC shear walls were tested under low cyclic loading.Prior to the cyclic test,three specimens were exposed to fire and two of them were also subjected to a constant axial load.Test results indicate that the ultimate load of the specimen with lower reinforcement ratio is reduced by 15.8%after exposure to elevated temperatures.While the reductions in the energy dissipation and initial stiffness are 59.2%and 51.8%,respectively,which are much higher than those in the ultimate load.However,this deterioration can be slowed down by properly increasing reinforcement due to the strength and stiffness recovery of steel bars after cooling.In addition,the combined action of elevated temperatures and axial load results in more energy dissipation than the action of fire exposure alone. 展开更多
关键词 shear wall reinforced concrete post-fire seismic behavior low cyclic loading
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Effect of fiber angle on LYP steel shear walls behavior 被引量:2
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作者 Farzad Hatami Ali Ghamari Farshad Hatami 《Journal of Central South University》 SCIE EI CAS 2014年第2期768-774,共7页
Steel shear wall(SSW) was properly determined using numerical and experimental approaches.The properties of SSW and LYP(low yield point) steel shear wall(LSSW) were measured.It is revealed that LSSW exhibits higher pr... Steel shear wall(SSW) was properly determined using numerical and experimental approaches.The properties of SSW and LYP(low yield point) steel shear wall(LSSW) were measured.It is revealed that LSSW exhibits higher properties compared to SSW in both elastic and inelastic zones.It is also concluded that the addition of CFRP(carbon fiber reinforced polymers) enhances the seismic parameters of LSSW(stiffness,energy absorption,shear capacity,over strength values).Also,stress values applied to boundary frames are lower due to post buckling forces.The effect of fiber angle was also studied and presented as a mathematical equation. 展开更多
关键词 carbon fiber reinforced polymers fiber angle low yield point steel shear wall post buckling COMPOSITE
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Performance index limits of high reinforced concrete shear wall components 被引量:1
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作者 劳晓春 韩小雷 《Journal of Central South University》 SCIE EI CAS 2011年第4期1248-1255,共8页
The deformation performance index limits of high reinforced concrete (RC) shear wall components based on Chinese codes were discussed by the nonlinear finite element method. Two typical RC shear wall specimens in th... The deformation performance index limits of high reinforced concrete (RC) shear wall components based on Chinese codes were discussed by the nonlinear finite element method. Two typical RC shear wall specimens in the previous work were first used to verify the correctness of the nonlinear finite element method. Then, the nonlinear finite element method was applied to study the deformability of a set of high RC shear wall components designed according to current Chinese codes and with shear span ratio λ≥2.0. Parametric studies were made on the influence of shear span ratio, axial compression ratio, ratio of flexural capacity to shear capacity and main flexural reinforcement ratio of confined botmdary members. Finally, the deformation performance index and its limits of high RC shear wall components under severe earthquakes were proposed by the finite element model results, which offers a reference in determining the performance status of RC shear wall components designed based on Chinese codes. 展开更多
关键词 reinforced concrete shear wall components performance index limits nonlinear finite element method Chinese codes
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Lateral load-carrying capacity analyses of composite shear walls with double steel plates and filled concrete with binding bars 被引量:1
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作者 周德源 刘凌飞 朱立猛 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第8期2083-2091,共9页
A method is developed to predict the lateral load-carrying capacity of composite shear walls with double steel plates and filled concrete with binding bars(SCBs). Nonlinear finite element models of SCBs were establish... A method is developed to predict the lateral load-carrying capacity of composite shear walls with double steel plates and filled concrete with binding bars(SCBs). Nonlinear finite element models of SCBs were established by using the finite element tool, Abaqus. Tie constraints were used to connect the binding bars and the steel plates. Surface-to-surface contact provided by the Abaqus was used to simulate the interaction between the steel plate and the core concrete. The established models could predict the lateral load-carrying capacity of SCBs with a reasonable degree of accuracy. A calculation method was developed by superposition principle to predict the lateral load-carrying capacity of SCBs for the engineering application. The concrete confined by steel plates and binding bars is under multi-axial compression; therefore, its shear strength was calculated by using the Guo-Wang concrete failure criterion. The shear strength of the steel plates of SCBs was calculated by using the von Mises yielding criterion without considering buckling. Results of the developed method are in good agreement with the testing and finite element results. 展开更多
关键词 composite shear wall double steel plate binding bar lateral load-carrying capacity nonlinear finite element analysis
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Seismic behavior and mechanism analysis of innovative precast shear wall involving vertical joints 被引量:3
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作者 孙建 邱洪兴 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第4期1536-1547,共12页
To study the seismic performance and load-transferring mechanism of an innovative precast shear wall(IPSW) involving vertical joints, an experimental investigation and theoretical analysis were successively conducted ... To study the seismic performance and load-transferring mechanism of an innovative precast shear wall(IPSW) involving vertical joints, an experimental investigation and theoretical analysis were successively conducted on two test walls. The test results confirm the feasibility of the novel joints as well as the favorable seismic performance of the walls, even though certain optimization measures should be taken to improve the ductility. The load-transferring mechanism subsequently is theoretically investigated based on the experimental study. The theoretical results show the load-transferring route of the novel joints is concise and definite. During the elastic stage, the vertical shear stress in the connecting steel frame(CSF) distributes uniformly; and each high-strength bolt(HSB)primarily delivers vertical shear force. However, the stress in the CSF redistributes when the walls develop into the elastic-plastic stage. At the ultimate state, the vertical shear stress and horizontal normal stress in the CSF distribute linearly; and the HSBs at both ends of the CSF transfer the maximum shear forces. 展开更多
关键词 precast shear wall vertical joint seismic behavior high-strength bolt connecting steel frame
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Improving behavior of semi-supported steel plate shear walls
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作者 Ali GHAMARI Abbas AKBARPOUR Ali GHANBARI 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第10期2891-2905,共15页
In spite of the good performance of the steel plate shear wall(SPSW)in recent earthquakes and experimental studies,the need for huge columns to surround the infill plate is a major shortcoming of the system.This short... In spite of the good performance of the steel plate shear wall(SPSW)in recent earthquakes and experimental studies,the need for huge columns to surround the infill plate is a major shortcoming of the system.This shortcoming can be resolved by using semi-supported SPSW.The semi-supported SPSW has secondary columns that prevent the transfer of stress from the infill plate to the main columns.In spite of extensive experimental and numerical investigations on SPSWs,there are many ambiguities regarding the behavior of the semi-supported SPSW.Although stress in the columns is reduced,incomplete diagonal tension field action is formed in the infill plate that creates new problems.In this paper,a new type of semi-supported SPSW is presented in which the steel plate and the secondary columns are angled.The creation of the angle of the plate and the secondary column makes it possible to use the full capacity of the steel plate as well as the capacity of the secondary columns.Numerical results showed that the wall with a 60°angle has a favorable performance relative to the semi-supported wall.Moreover,with the 60°angle,stiffness,strength and energy absorption is increased.The angle of the secondary columns has little effect on the non-elastic stiffness.Nevertheless,using a wall with an angle of more than 90°can neutralize the wall’s behavior relative to conventional walls.Therefore,the wall with a 60°angle as an optimal angle is recommended. 展开更多
关键词 steel plate shear wall(SPSW) DUCTILITY STIFFNESS ultimate strength R factor
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Shear-resistant behavior of light composite shear wall
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作者 李升才 董毓利 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第7期2768-2775,共8页
Shear test results for a composite wall panel in a light composite structure system are compared with test results for shear walls in Japan.The analysis results show that this kind of composite wall panel works very w... Shear test results for a composite wall panel in a light composite structure system are compared with test results for shear walls in Japan.The analysis results show that this kind of composite wall panel works very well,and can be regarded as a solid panel.The composite wall panel with a hidden frame is essential for bringing its effect on shear resistance into full play.Comprehensive analysis of the shear-resistant behavior of the composite wall panel suggests that the shear of the composite shear wall panel can be controlled by the cracking strength of the web shearing diagonal crack. 展开更多
关键词 composite shear wall shear test hidden frame shear design cracking strength shearing diagonal crack
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Study on the Distribution Law of Horizontal Seismic Forces between Slab-Column and Shear Wall
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作者 GUO Nan GUO Yihong YANG Yingwei 《沈阳建筑大学学报(自然科学版)》 CAS 北大核心 2012年第3期443-448,共6页
In slab column-shear wall structures,both the whole structure′s seismic behavior and failure mode are greatly influenced by the distribution of horizontal seismic forces between slab-column and shear wall.In this pap... In slab column-shear wall structures,both the whole structure′s seismic behavior and failure mode are greatly influenced by the distribution of horizontal seismic forces between slab-column and shear wall.In this paper,a pushover analysis of topical slab column-shear wall structure was carried out,the seismic shear force that the slab-column and shear wall should undertake was worked out,the influences of plastic internal force redistribution and structure stiffness characteristic value on horizontal seismic distribution were studied and the calculation formula was given.The analysis results showed that with the yield of the shear walls,the story shear force was undertaken by slab-columns correspondingly increased while with the decrease of characteristic value of stiffness of a structure,and the horizontal seismic force was undertaken by slab-columns correspondingly decreased.According to the code,the design of horizontal force distribution may be cause insecurity problems,so it is necessary to give the distribution law of horizontal seismic forces in slab-column shear wall structures as the supplement to the corresponding regulation of the Code. 展开更多
关键词 slab column-shear wall structure horizontal seismic force pushover analysis plastic internal force redistribution characteristic value of stiffness of structure
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海相软土无侧限抗压强度曲线类型分类及影响因素 被引量:1
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作者 苟富刚 龚绪龙 《工程地质学报》 北大核心 2025年第1期20-28,共9页
无侧限抗压强度是岩土设计中的一种代表性强度。基于连云港地区186组海相软土无侧限抗压强度试验(UTC),对其应力-应变曲线类型进行了分类统计,探讨了影响应力-应变曲线的因素。研究结果表明:应力-应变曲线类型可以归为3个类型。Ⅰ类曲... 无侧限抗压强度是岩土设计中的一种代表性强度。基于连云港地区186组海相软土无侧限抗压强度试验(UTC),对其应力-应变曲线类型进行了分类统计,探讨了影响应力-应变曲线的因素。研究结果表明:应力-应变曲线类型可以归为3个类型。Ⅰ类曲线为软化型,具有明显的轴向应力峰值,Ⅰ类曲线数量占比27%;Ⅱ类曲线为稳定性,不具有明显的峰值,一般应变大于15%后轴向应力才趋向一个定值,Ⅱ类曲线数量占比35%;Ⅲ类曲线为应变硬化型,应变大于20%时轴向应力还没有收敛趋势,Ⅲ类曲线数量占比38%。振动可以促使应力-应变曲线类型由Ⅰ型逐渐转化为Ⅲ型,且破坏应变随着振动时长的增加而变大,无侧限抗压强度数值逐渐减小。取样器类型也对曲线类型有显著影响,Ⅰ类曲线中采用薄壁获取样品的占比90%,厚壁获取样品仅占比10%。K_(0)固结预处理可以恢复土体地应力,促使曲线类型由Ⅱ、Ⅲ型转化为Ⅰ型,获取的抗剪强度接近原位试验获取的土体抗剪强度,且随着取样深度的增加,进行土体应力恢复效果越明显。 展开更多
关键词 无侧限抗压强度试验 应力-应变 K_(0)固结 薄壁取样器 抗剪强度
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螺栓连接预制装配式剪力墙抗剪承载力 被引量:1
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作者 姜绍飞 卞智海 +2 位作者 宋华霖 赵剑 连晟航 《哈尔滨工程大学学报》 北大核心 2025年第6期1159-1168,共10页
为探究剪跨比、轴压比和配箍率等参数对螺栓连接预制装配式剪力墙的抗剪性能影响,本文开展了抗剪承载力参数分析和计算方法研究。对3片BASW进行拟静力试验,建立了精细化仿真模型并进行了验证;开展了剪跨比、轴压比和配箍率对螺栓连接预... 为探究剪跨比、轴压比和配箍率等参数对螺栓连接预制装配式剪力墙的抗剪性能影响,本文开展了抗剪承载力参数分析和计算方法研究。对3片BASW进行拟静力试验,建立了精细化仿真模型并进行了验证;开展了剪跨比、轴压比和配箍率对螺栓连接预制装配式剪力墙的抗剪性能参数分析;基于螺栓连接预制装配式剪力墙工作机理推导了抗剪承载力计算公式,并与已有文献和现行规范进行对比。研究发现:剪跨比越小或轴压比越大,抗剪承载力越大,延性变差;配箍率越大,承载力、刚度越大,提高幅度趋于减弱。本文提出的承载力公式的计算值与试验结果吻合良好,研究表明螺栓连接预制装配式剪力墙具有良好的抗剪性能,推导的抗剪承载力公式具有较好的适用性。 展开更多
关键词 装配式剪力墙 螺栓连接 数值模拟 剪跨比、轴压比、配箍率、骨架曲线 抗剪承载力公式
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基于材料应变的新型装配式剪力墙变形指标限值 被引量:1
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作者 樊禹江 陈玉喜 +2 位作者 李寰芳 许锦宝 葛俊 《哈尔滨工业大学学报》 北大核心 2025年第2期104-112,共9页
为研究新型装配式剪力墙的抗震性能及其变形指标限值,基于课题组所做新型装配式剪力墙抗震性能试验,采用析因法,共设计216个不同剪跨比、轴压比、边缘构件纵筋配筋率等新型装配式剪力墙模型,完成相应的单推性能研究;基于有限元破坏形态... 为研究新型装配式剪力墙的抗震性能及其变形指标限值,基于课题组所做新型装配式剪力墙抗震性能试验,采用析因法,共设计216个不同剪跨比、轴压比、边缘构件纵筋配筋率等新型装配式剪力墙模型,完成相应的单推性能研究;基于有限元破坏形态识别,将构件破坏形态划分为弯曲破坏、弯剪破坏和剪切破坏3类,提出墙体破坏形态划分准则。参考GB 50011—2010《建筑抗震设计规范》,对弯曲破坏和弯剪破坏划分6个性能状态,对剪切破坏划分两个性能状态,基于构件极限状态下混凝土、钢筋应变和承载力,确定墙体性能状态判定准则。通过线性回归分别得到弯曲破坏、弯剪破坏和剪切破坏形态下构件各塑性位移角限值的回归方程,并提出各破坏形态下具有90%保证率的构件变形指标限值标准,为基于性能的新型装配式剪力墙抗震设计提供参考。 展开更多
关键词 钢筋混凝土 装配式剪力墙 有限元模拟 破坏形态 变形指标限值
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动静脉内瘘血管钙化与血流动力学参数的关系研究
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作者 袁德奎 宁慧慧 +1 位作者 王喆 王耀宏 《天津大学学报(自然科学与工程技术版)》 北大核心 2025年第10期1076-1082,共7页
动静脉内瘘(AVF)是血液透析患者首选的血管通路.AVF钙化是术后常见的并发症之一,其会引起AVF功能障碍、降低AVF的存活率、导致手术失败,然而关于AVF钙化的机制以及血流动力学的改变对AVF钙化的影响的研究并不充分.研究血流动力学参数与... 动静脉内瘘(AVF)是血液透析患者首选的血管通路.AVF钙化是术后常见的并发症之一,其会引起AVF功能障碍、降低AVF的存活率、导致手术失败,然而关于AVF钙化的机制以及血流动力学的改变对AVF钙化的影响的研究并不充分.研究血流动力学参数与AVF钙化之间的关系,可为早期预测钙化位置提供依据.本文基于计算机断层扫描技术获得的患者AVF数据,用MIMICS 17软件重构了患者血管的三维几何模型,并对得到的三维几何模型的表面进行了光滑处理;用快速傅里叶变换对相应的多普勒超声图像数据进行处理,取前11阶重构得到的流速作为桡动脉进出口流速;根据以上基础,用计算流体动力学模拟软件ANSYS Fluent中基于不可压缩非牛顿流体的雷诺平均的Navier-Stokes方程求解血管内的流场.对数值模拟结果进行处理和计算,得到血管壁面剪切应力τW分布图、振荡剪切指数Ios、平均剪切应力τa和相对停留时间tRR.对以上指标与病人实际钙化区域进行对比和分析的结果表明:在Ios值较高且τa值较低的区域,血管壁更倾向于钙化,综合Ios和τa这2个指标可判断血管壁某区域是否倾向于发生钙化;tRR可以作为描述动脉粥样硬化问题的单一指标,但在预测钙化发生位置的问题中并没有表现出更强的相关性,仅可以辅助Ios和τa预测钙化出现的范围. 展开更多
关键词 动静脉内瘘 血管钙化 壁面剪切应力 振荡剪切指数 平均剪切应力 相对停留时间
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耗能支撑-钢框架-剪力墙多重抗侧力混合结构地震破坏全过程拟动力试验及数值分析
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作者 李亮 牛飞宇 +4 位作者 李昀泽 毛孜 周天华 陈军武 何瑶 《土木工程学报》 北大核心 2025年第8期44-56,共13页
为研究装配屈曲约束支撑的钢框架-剪力墙混合结构的抗震性能及耗能机理,文章对一个10层1/8缩尺混合结构试件进行拟动力试验,得到23个工况下结构的位移、加速度响应、剪力墙裂纹发展过程及破坏模式。通过ABAQUS模拟分析进一步研究耗能支... 为研究装配屈曲约束支撑的钢框架-剪力墙混合结构的抗震性能及耗能机理,文章对一个10层1/8缩尺混合结构试件进行拟动力试验,得到23个工况下结构的位移、加速度响应、剪力墙裂纹发展过程及破坏模式。通过ABAQUS模拟分析进一步研究耗能支撑-框架、钢框架及剪力墙三部分之间的能量分配、耗能支撑的塑性耗能和剪力墙的塑性损伤情况。研究表明:(1)屈曲约束支撑(Buckling Restrained Brace,BRB)耗能占结构总耗能的69.9%,其破坏模式主要表现为BRB端部节点板与钢柱之间的焊缝被拉断和BRB端部过渡段面外压弯失稳;钢框架耗能仅占结构总耗能的3.1%,基本处于弹性状态;剪力墙耗能占结构总耗能的16.7%,内部损伤主要集中在混凝土材料上,钢筋与钢骨基本处于弹性状态;(2)剪力墙裂缝首先出现在2~3层,并逐渐扩散至整个剪力墙,裂缝始终为微裂缝且分布较为均匀;(3)BRB显著改善了钢框架-混凝土剪力墙结构的内力分配、变形特征及破坏模式,剪力墙的整体损伤程度较轻,并未出现局部严重破坏。 展开更多
关键词 屈曲约束支撑 混合结构 拟动力试验 剪力墙 破坏模式
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套筒灌浆缺陷对装配式剪力墙抗震性能的影响
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作者 郑巍 张士前 +2 位作者 马明磊 阴光华 陈少军 《工程科学与技术》 北大核心 2025年第5期52-63,共12页
为研究套筒灌浆缺陷对装配式混凝土剪力墙抗震性能的影响,以灌浆缺陷套筒数量、上侧钢筋灌浆缺陷长度为变化参数,设计7个钢筋套筒灌浆连接的装配式混凝土剪力墙(6个灌浆缺陷试件和1个灌浆饱满对比试件),完成拟静力试验,观察试件受力破... 为研究套筒灌浆缺陷对装配式混凝土剪力墙抗震性能的影响,以灌浆缺陷套筒数量、上侧钢筋灌浆缺陷长度为变化参数,设计7个钢筋套筒灌浆连接的装配式混凝土剪力墙(6个灌浆缺陷试件和1个灌浆饱满对比试件),完成拟静力试验,观察试件受力破坏过程和最终破坏形态,获取荷载-位移滞回曲线,分析试件滞回性能、骨架曲线、承载力、变形、刚度退化、延性和耗能能力等抗震性能指标。结果表明:套筒灌浆缺陷装配式混凝土剪力墙与灌浆饱满试件的破坏形态相似,最终破坏形态表现为边缘构件最外侧竖向钢筋受拉屈服甚至因套筒倾斜而拉断,且墙角套筒外侧混凝土保护层压碎脱落;灌浆缺陷试件的荷载-位移滞回曲线呈弓形或反“S”形;与灌浆饱满试件相比,套筒灌浆缺陷试件的承载力、变形和耗能能力减小,而灌浆缺陷对试件初始刚度影响不明显,但对后期刚度的影响逐渐变大;试件承载力、峰值位移和耗能能力随着灌浆缺陷套筒数量增加而减小,试件刚度随着灌浆缺陷套筒数量和套筒内灌浆缺陷长度增加而减小。 展开更多
关键词 装配式剪力墙 套筒灌浆连接 灌浆缺陷 抗震性能 拟静力试验
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CFST键竖向连接剪力墙结构抗震性能模拟研究
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作者 杨永生 李明 汤维维 《沈阳建筑大学学报(自然科学版)》 北大核心 2025年第5期614-622,共9页
研究钢管混凝土(CFST)键竖向连接剪力墙结构的抗震性能。利用ABAQUS有限元分析软件建立CFST键竖向连接和现浇剪力墙模型,对比二者的抗震性能,分析不同因素对CFST键竖向连接剪力墙抗震性能的影响。结果表明:CFST键竖向连接剪力墙抗震性... 研究钢管混凝土(CFST)键竖向连接剪力墙结构的抗震性能。利用ABAQUS有限元分析软件建立CFST键竖向连接和现浇剪力墙模型,对比二者的抗震性能,分析不同因素对CFST键竖向连接剪力墙抗震性能的影响。结果表明:CFST键竖向连接剪力墙抗震性能略优于现浇剪力墙,混凝土强度、钢槽厚度、钢槽腹板高度对其抗震性能影响较大,随着取值的增加,承载力及耗能能力均提高,延性降低,影响系数中,最大相差幅度超过19%;钢材强度和钢板厚度对其抗震性能影响较小,影响系数中,最大相差幅度小于13%。钢管混凝土键竖向连接剪力墙结构具有可行性,该连接结构能够有效传递剪力墙间的弯矩和剪力,使结构具有良好的抗震性能。 展开更多
关键词 CFST键 剪力墙 抗震性能 有限元模拟 竖向连接
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楼板约束对装配式耗能剪力墙受力性能影响研究
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作者 张皓 杨思伟 +1 位作者 李宏男 郭鑫 《防灾减灾工程学报》 北大核心 2025年第2期393-404,共12页
为研究楼板对竖向拼缝干式耗能连接的装配式剪力墙受力性能的影响,建立了三种不同的装配式耗能剪力墙有限元模型,一片未设置楼板的装配式耗能剪力墙试件(PC-0)、两片设置不同形式现浇楼板的装配式剪力墙试件(PC-1、PC-2),其中PC-2试件... 为研究楼板对竖向拼缝干式耗能连接的装配式剪力墙受力性能的影响,建立了三种不同的装配式耗能剪力墙有限元模型,一片未设置楼板的装配式耗能剪力墙试件(PC-0)、两片设置不同形式现浇楼板的装配式剪力墙试件(PC-1、PC-2),其中PC-2试件采用了减小楼板约束的简易构造措施。对上述三个试件进行低周往复加载作用下的受力性能数值模拟分析,初步研究了楼板约束对装配式剪力墙受力性能的影响。并通过采取简易构造措施来减小楼板约束的影响,以提升装配式剪力墙的耗能能力。研究表明:考虑楼板约束后,装配式耗能剪力墙的刚度和承载力有小幅提升,楼板约束会限制阻尼器连接件耗能效率,使部分阻尼器连接件的耗能发挥不充分,导致耗能能力及延性降低;通过构造措施减小了楼板约束的影响进行后,阻尼器连接件的耗能效率提高,导致墙体的耗能能力和延性明显提升,而承载力和刚度则略有降低。楼板约束对装配式耗能墙体受力性能的影响不容忽视,在该类墙体的抗震设计与分析中应予以考虑。 展开更多
关键词 装配式剪力墙 干式耗能连接 受力性能 楼板约束 耗能能力
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L形装配式耗能剪力墙受力性能研究
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作者 张皓 葛仕雯 +1 位作者 李宏男 李安琪 《沈阳建筑大学学报(自然科学版)》 北大核心 2025年第2期210-218,共9页
研究L形装配式耗能剪力墙的受力性能,为该类墙体的抗震设计与工程应用提供参考。基于分层壳单元建立了3组共计6片L形墙体试件模型,每组墙体的翼缘宽度分别为800 mm、1000 mm和1200 mm,其中每组包括一个现浇试件和一个装配式耗能墙体试... 研究L形装配式耗能剪力墙的受力性能,为该类墙体的抗震设计与工程应用提供参考。基于分层壳单元建立了3组共计6片L形墙体试件模型,每组墙体的翼缘宽度分别为800 mm、1000 mm和1200 mm,其中每组包括一个现浇试件和一个装配式耗能墙体试件。开展了循环荷载作用下竖缝节点采用干式耗能连接的L形装配式耗能剪力墙的受力性能数值模拟,研究了翼缘宽度对墙体受力性能的影响。与LPC-1相比,LPC-2和LPC-3的极限荷载分别提高0.74%和7.75%,初始刚度分别提高1.45%和2.47%,延性系数分别降低0.79%和2.99%。装配式耗能墙体的受力性能与现浇墙体基本一致,承载力和刚度略有降低,耗能及变形能力略有提高。随着翼缘宽度的增大,装配式耗能墙体的承载力及变形能力呈增大趋势;初始刚度呈减小趋势,且刚度退化加剧;耗能能力呈减小趋势。 展开更多
关键词 装配式耗能剪力墙 翼缘宽度 受力性能 干式耗能连接 数值模拟
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型钢混凝土剪力墙变形性能指标体系试验研究
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作者 韩小雷 陈熹俊 +2 位作者 张垒 季静 黄烨华 《同济大学学报(自然科学版)》 北大核心 2025年第6期860-872,共13页
为修正广东省标准《建筑工程混凝土结构抗震性能设计规程》(DBJ/T15-151-2019)中型钢混凝土(SRC)剪力墙的变形性能指标体系,根据我国现行规范,设计了12个一字型SRC剪力墙试件进行低周往复试验,对其破坏形态、耗能能力、变形能力、位移... 为修正广东省标准《建筑工程混凝土结构抗震性能设计规程》(DBJ/T15-151-2019)中型钢混凝土(SRC)剪力墙的变形性能指标体系,根据我国现行规范,设计了12个一字型SRC剪力墙试件进行低周往复试验,对其破坏形态、耗能能力、变形能力、位移延性等进行研究。根据试验结果,提出基于骨架曲线的性能状态划分方法和基于破坏现象的性能状态划分方法,两种方法确定的变形性能指标限值吻合且可相互表征,由此建立构件变形—构件损坏程度—构件承载力的对应关系;基于该研究12个试件和文献收集的92个试件共104个试件的低周往复试验结果,修正了SRC剪力墙的破坏形态判别准则,建立了SRC剪力墙关键性能点θ_(1)、θ_(5)、θ_(6)的回归公式。最后,基于ASCE/SEI41-13对建立的关键性能点回归公式进行超越概率调整,修正了SRC剪力墙的变形性能指标限值。 展开更多
关键词 型钢混凝土剪力墙 变形性能指标 性能设计 低周往复试验
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基于有限元的端板式组合剪力墙-钢梁节点抗震性能研究
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作者 陈丽华 石锦涛 《合肥工业大学学报(自然科学版)》 北大核心 2025年第1期127-135,144,共10页
为研究端板式双钢板组合剪力墙-钢梁节点抗震性能,文章通过改变端板厚度设计3个足尺节点试件,开展低周往复加载试验,利用ABAQUS软件对节点进行等效塑性应变损伤准则的有限元分析模拟,探究钢材种类、梁端盖板、轴压比及设置加劲肋等对节... 为研究端板式双钢板组合剪力墙-钢梁节点抗震性能,文章通过改变端板厚度设计3个足尺节点试件,开展低周往复加载试验,利用ABAQUS软件对节点进行等效塑性应变损伤准则的有限元分析模拟,探究钢材种类、梁端盖板、轴压比及设置加劲肋等对节点抗震性能的影响。结果表明:节点试件具有良好的抗震性能,且模拟分析结果与试验结果吻合度较好;通过提升钢材屈服强度、改用全截面梁上盖板、增加盖板厚度及设置梁端加劲肋等方式可有效提升节点的承载力和刚度;最后依据基于塑性极限分析法推导结果提出了该类型节点的端板厚度设计方法。 展开更多
关键词 双钢板组合剪力墙 墙梁节点 ABAQUS有限元 应力三轴度 设计方法
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一字型带竖缝的干连接装配式剪力墙抗震性能研究
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作者 王振宇 刘洪涛 杜修力 《防灾减灾工程学报》 北大核心 2025年第3期571-583,共13页
相邻预制墙板之间的竖缝通过高强度螺栓和预埋连接钢板实现干法连接,构造简单,操作方便,传力直接。为研究该竖缝干连接装配式剪力墙的抗震性能,进行了1片现浇墙和4片干连接预制墙的低周往复加载试验,研究了竖缝干连接试件的破坏模式、... 相邻预制墙板之间的竖缝通过高强度螺栓和预埋连接钢板实现干法连接,构造简单,操作方便,传力直接。为研究该竖缝干连接装配式剪力墙的抗震性能,进行了1片现浇墙和4片干连接预制墙的低周往复加载试验,研究了竖缝干连接试件的破坏模式、滞回特性、刚度退化、耗能性能以及不同类型竖缝节点的连接特性。结果表明:竖缝干连接节点可以有效传递装配式剪力墙左、右墙肢剪力,使墙板承载能力满足设计要求,并具有较好的延性性能和耗能能力;但预制墙板破坏形态与现浇墙有所不同,受竖缝节点影响其裂缝分布区域更广,墙板耗能能力增强,且随竖缝连接强度增强,墙板强度和刚度趋近于现浇整体墙。竖缝干连接装配式剪力墙的层间变形主要由弯曲变形和剪切变形组成,墙板极限位移角均大于规范规定的弹塑性层间位移角限值(1/120),且其位移延性系数介于5.1~7.4,具有良好的变形能力和抗倒塌能力。另外,竖缝节点上移可以有效提高节点连接效率,改善墙板整体性和耗能能力,节约建设成本,因此在工程中建议节点布置在墙板中上部。 展开更多
关键词 装配式剪力墙 竖向接缝 干连接节点 高强度螺栓 低周往复加载试验 抗震性能
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