1)  lateral loading
抗侧承载
1.
The shear-lethargy of masonry wall under lateral loading is discussed in this paper.
初步探讨了砌体结构墙体抗侧承载时的剪切滞后问题。
2)  resistant capacity of lateral loading
抗侧承载力
1.
The resistant capacity of lateral loading of the composite wall made of sintered shalefavinosecoal bricks with higher compressive strength is discussed by analyzing the different results of three series of walls about 22 pieces with different experimental parameters.
对3批22片组合墙体在不同试验参数和试验条件下的试验结果进行了比较与分析,并对这种墙体的抗侧承载力进行了讨论;对影响组合墙体抗侧承载力的因素如高宽比、竖向压应力、纵向与水平钢筋的配筋率以及混凝土率等因素进行分析,指出其各自不同的作用机理和对抗侧承载力的贡献程度;对组合墙的正截面和斜截面的受力状况进行分析,给出了不同情况下正截面和斜截面抗侧承载力的计算公式,为该类房屋的设计提供了依据;对国内大量试验研究的数据进行了回归拟合。
3)  lateral resistant ability
抗侧能力
1.
The lateral resistant ability under three kinds of vertical loads and the hysteretic performance under cyclic loading are analyzed and contrasted for four steel frames,six steel plates shear wall piece with slits(two rows) and six steel frames-steel plate shear wall with slits.
本文对4种钢框架、6种带缝(两排)钢板剪力墙片(四周与构件无连接)和6种固接的钢框架-带缝钢板剪力墙结构在3种不同竖向荷载作用下的抗侧能力和往复荷载下的滞回性能进行了研究,并对比分析。
4)  lateral stiffness
抗侧刚度
1.
Optimal analysis for lateral stiffness of shear wall in mid-highrise RC frame-shearwall structure with special-shaped columns;
中高层异形柱框-剪结构的剪力墙抗侧刚度优化
2.
Optimal lateral stiffness of tall building based on initiative control;
基于主动控制的高层结构最优抗侧刚度
3.
Analysis of lateral stiffness influence on the prestressing force of frame;
框架抗侧刚度对后张预应力效应影响分析
5)  lateral rigidity
抗侧刚度
1.
Based on a practical project, the influence of the lateral rigidity on effective prestressing force is introduced, which is analyzed by methods of classical structural mechanics and finite element program.
针对实际工程中柱及连梁的抗侧刚度对梁预应力建立的影响 ,使用经典力学方法和有限元软件建立了平面和空间模型 ,并对计算结果作出比较。
6)  lateral force resistance
抗侧力
1.
Analytical models of 7-,13-,and 19-story building were used to analyze the lateral force resistance of multi-story and high-rise staggered truss systems.
为了明确多层和高层错列桁架钢结构体系抗侧力性能的异同,建立了总高7、13、19层的3种结构模型进行三维整体计算,分析了不同的结构布置、抗侧力构件和桁架形式的选取对结构内力、水平位移、自振周期及振型的影响。
参考词条
补充资料:侧向极限承载强度
分子式:
CAS号:

性质:用铆钉、螺杆、栓等办法将板材和板材之间搭接,或将板联接于其他部件上时,板材所能承受的最大的平行于板面的载荷除以它们的支撑面积所得的商值,单位MPa。这时,板材穿铆钉(或螺杆等)的孔洞一侧和铆钉柱之间因受局部挤压而发生塑性变形,最后导致板材被拉断。极限承载强度也称侧向极限承载强度。对该值的了解有助于选择铆钉直径和铆钉孔的布置,以利于整体工作强度。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。