1) vertical seismic response
竖向地震反应
1.
A analysis of vertical seismic response on vertical seismic isolation system by disk spring;
碟形弹簧竖向减震装置的竖向地震反应分析
2.
Application of pseudo excitation method to vertical seismic response analysis of self-anchored suspension bridges;
虚拟激励法在自锚式悬索桥竖向地震反应分析中的应用
3.
The vertical dynamic characteristic and vertical seismic response of a building with a 16.
8m悬臂的某多塔连体高层结构,采用ETABS软件对其竖向振动特性和竖向地震反应进行了分析。
3) vertical earthquake
竖向地震
1.
Analysis of TMD used in controlling the vibration of structural in the vertical earthquake action;
竖向地震作用下的结构TMD控制分析
2.
More and more complicated structures have been built in recent years,among which the cantilevered structure and its vertical earthquake analysis has attracted much attention.
近年来随着复杂结构形式的出现,悬挑结构的竖向地震作用分析得到工程设计人员的重视。
3.
The vertical earthquake increases the response of the structure to some degree.
研究了水平地震与竖向地震耦合作用下,考虑土-结构相互作用以及二阶效应对结构反应的影响。
4) vertical seismic
竖向地震
1.
The response mechanism of the mega_sub controlled structural system with additional columns subjected to vertical seismic action is studied in this paper.
分析了竖向地震作用下巨-子型控制结构体系MSCSS(Mega_sub controlled structural system)的反应机理,提出了带附加柱的MSCSS。
2.
The destruction induced by vertical seismic action during earthquake is existent objectively, and universalism.
竖向地震作用在地震中造成的破坏是客观存在的,且具有普遍性。
5) vertical seismic motion
竖向地震动
1.
A simplified method for calculating modulus ratio and damping ratio considering vertical seismic motion;
考虑竖向地震动下模量比和阻尼比简化公式
2.
Effects on maximum shear strain of soil layer surface of vertical seismic motion;
竖向地震动对地表最大剪应变的影响
6) vertical ground motion
竖向地震动
1.
Characteristics of acceleration response spectra for vertical ground motions;
竖向地震动加速度反应谱特性
2.
A study of response spectra of vertical ground motion for buildings antiseismic design;
房屋抗震设计的竖向地震动反应谱研究
3.
Generally we consider vertical ground motion is about 1/2~1/3 of the corresponding horizontal one.
一般认为,地震动竖向分量的强度约为水平分量的1/2~2/3,故在普通建筑物的抗震设计和分析中常常忽略竖向地震动的影响,而我国现阶段抗震设计规范中也只给出了水平向设计反应谱。
补充资料:城市用地竖向规划
城市开发建设地区(或地段),为满足道路交通、地面排水、建筑布置和城市景观等方面的综合要求,对自然地形进行利用、改造,确定坡度、控制高程和平衡土石方等而进行的规划设计。
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