1) wall frame
墙架结构
1.
In this paper,the shear behavior of a new type of high-strength cold-formed ultra-thin-wall steel wall frame was analyzed mainly by the finite element method.
采用了有限元法对冷弯薄壁型钢单榀墙架结构的进行受剪性能的分析。
2.
The shear behaviors of a type of high-strength cold-formed ultra-thinwall steel single and compound wall frames were analyzed mainly by FEM.
结果表明:墙架杆件截面发生局部屈曲和扭转变形是影响这类墙架受剪承载力的主要因素;随着墙架立柱间距、墙架高度及拉铆钉间距增大,墙架结构的受剪承载力明显减小;"K"形支撑体系对防止墙架结构过早发生平面外屈曲起到了关键作用;组合墙架的屈曲荷载随着墙架个数的增加而增加迅速,体现了各墙架间协同工作的抗侧力性能。
2) frame-shearwall structure
框架-剪力墙结构
1.
With the development of architecture,the marginal structural system between frame structure and frame-shearwall structure or shearwall structure and frame-shearwall structure has occurred.
为了解决框架结构与框架-剪力墙结构以及剪力墙结构与框架-剪力墙结构之间的边缘结构体系的设计问题,对这类结构进行了认定分析,对这种结构在设计中存在的误区做了全面的归纳总结,并对这类结构提出了设计建议,分析表明:此类结构不可以完全按照框架—翦力墙结构体系进行设计;最后还提出了这类结构的研究展望。
2.
frame-shearwall structure with special-shaped columns are considered, the lateral stiffness of shear wall in mid-highrise residential buildings of RC.
综合考虑剪力墙剪切变形、异形框架柱轴向变形和连梁刚度对异形柱框架-剪力墙结构的抗侧刚度的影响,对抗震设防区的中高层钢筋混凝土异形柱框架-剪力墙结构体系住宅进行剪力墙抗侧刚度的优化,同时采用底部剪力法分析剪力墙抗侧刚度与水平地震作用的关系,考虑层间位移、刚重比、剪重比等约束条件建立优化数学模型,并结合新规范给出模型的数值解。
3.
The building uses reinforced concrete frame-shearwall structure.
鼎好电子商城二期工程采用钢筋混凝土框架-剪力墙结构,地上通过钢结构连廊与一期相连。
3) frame-shear wall structure
框架-剪力墙结构
1.
The 18-story frame-shear wall structure is used for an office building named HuiLongyuan in harbin.
哈尔滨慧隆苑办公楼采用18层框架-剪力墙结构,由于功能要求,须对其17、18两层原结构施工图进行抽柱修改设计。
2.
quadratic lateral load pattern) which can include uniform lateral load pattern,triangular lateral load pattern and multimode lateral load pattern is set up,and the drift computation formula of frame-shear wall structure under the quadratic lateral load distribution is deduced.
推导了二次曲线侧向荷载分布作用下,框架-剪力墙结构的水平位移曲线。
3.
Based on considering the bending deformation Of shear walls, the optimum stiffness of shear wall in a frame-shear wall structure was analyzed in this paper in six combined cases with the hoal deformation of side columns of frame or walls, the shear deformation of shear walls and the different coupling of binding beams.
本文在考虑剪力墙弯曲变形基础上,由框架边柱(墙)轴向变形、剪力墙剪切变形和连系梁不同联接等三种因素,分六种组合情况,分析框架-剪力墙结构中剪力墙的最优刚度。
4) frame-shear structure
框架-剪力墙结构
1.
the successive and cooperating model of frame-shear structure and the finite element model developed by the authors to reflect the characteristics of frame-shear structure are used to carry out the comparative computation of natural vibrational periodic coefficient.
推导了框架-剪力墙结构自振周期方程,利用两种计算模型,即框架-剪力墙的连续化协同工作计算模型和笔者建立的反映框架-剪力墙结构特点的有限元模型,对比计算结构自振周期系数。
5) frame-shear wall
框架-剪力墙结构
1.
In the analysis of frame-shear wall,the plane rectangular element(GR12M) with rotational freedoms can greatly improve the performance of elements without incr.
结果表明,把带转角自由度的矩形平面单元用于框架-剪力墙结构分析,在不增加单元自由度的情况下大大改善了单元的性能,单元列式简单,保证收敛,可以自然地解决框架-剪力墙结构的连接问题,还能获得很高的精度,而且能为平板壳结构分析提供有效的膜元。
6) frame-shear wall structure
框架-抗震墙结构
1.
The local energy-dissipation braces is used on the foundation of the ordinary frame-shear wall structure system in this paper.
以地处地震高烈度区的宿迁建设大厦为例,在传统的框架-抗震墙结构体系的基础上设置局部消能支撑,进行了结构非线性时程分析,对消能装置的数量及布置进行了优化,分析结果表明,框架-抗震墙结构+局部消能减震支撑在多遇地震作用下的层间位移能满足《建筑抗震设计规范》要求,在罕遇地震作用下具有更高的安全储备,表现出良好的抗震性能。
2.
The building is designed by the reinforced concrete frame-shear wall structure, and the energy-dissipated braces are installed in some floors to increase the local structural damping ratio and reduce the dislpacement response under earthquake action, because the dislpacements of some floors can not meet the requirement of design code.
宿迁市建设大厦,21层,框架-抗震墙结构,按Ⅷ度(0。
3.
Calculation results of the nonlinear time-history analysis show that using the technology of base-isolating in frame-shear wall structures can increase the structural seismic capability.
整体结构的非线性时程分析结果表明,在高烈度抗震区采用基础隔震技术,框架-抗震墙结构中通过基础隔震技术可以提高结构的抗震安全储备。
补充资料:钢管混凝土柱刚架结构
钢管混凝土柱刚架结构
撇 钢管混凝土柱刚架结构
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条