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991.
板柱-剪力墙结构的动力特性分析 总被引:1,自引:0,他引:1
采用有限元方法,改变结构的跨度和层数,对无边梁的板柱-剪力墙结构、带边梁的板柱-剪力墙结构和框架-剪力墙结构的动力特性进行对比分析。指出水平荷载作用下无边梁的板柱-剪力墙结构的侧移曲线是弯曲型的,而带边梁的板柱-剪力墙结构的侧移曲线是弯剪型,并且边梁可以有效提高板柱-剪力墙结构侧向刚度。 相似文献
992.
通过建立框架-抗震墙结构单元模型,采用在楼层处有集中力而在楼层之间有分布力的地震作用模式并考虑抗震墙剪切变形的影响,得到了结构内力和变形之间的公式。根据实例分析可得抗震墙剪切变形对整体结构变形影响很小,因此一般情况下在计算框架-抗震墙结构时忽略剪切变形是合理的;同时发现框架剪切刚度越大,抗震墙剪切变形对框架-抗震墙结构整体变形的影响就越大,反之则越小。 相似文献
993.
994.
Summary. The liner of a pressure tunnel needs to be designed such that it can withstand the loads from the ground, the internal pressure,
and minimize the development of significant pore pressures at the liner-ground interface. Pore pressures behind the liner
reduce the effective stresses in the ground immediately in contact with the liner and can ultimately produce loss of support
from the ground. Deformations and loads of the liner are intimately connected to the interplay that exists between liner,
ground, and pore pressures in the ground. A closed-form analytical solution has been derived that accounts for the inter-relation
between liner, ground, and pore pressures. Elastic response of the liner and ground, and plane strain conditions at any cross-section
of the tunnel are assumed. The solution shows that stresses in the ground depend on the following dimensionless factors: relative
stiffness of the ground and liner, ground Poisson’s ratio, surface slope angle, coefficient of earth pressure at rest, relative
tunnel depth, and magnitude of the pore pressure behind the liner relative to the internal pressure. The minimum ground effective
tangential stresses at the ground-liner interface increase with the relative stiffness of the liner, with the coefficient
of earth pressure at rest, and with tunnel depth. They decrease with increasing surface slope angle and pore pressures behind
the liner. As leakage through the liner increases, the pore pressures in the ground increase. This results in a decrease of
effective radial and tangential stresses in the ground while displacements and loads of the liner are relatively less affected. 相似文献
995.
Effectiveness of a new semiactive independently variable stiffness (SAIVS) device in reducing seismic response of sliding base isolated buildings is evaluated analytically and experimentally. Through analytical and experimental study of force—displacement behaviour of the SAIVS device, it is shown that the device can vary stiffness continuously and smoothly between minimum and maximum stiffness. Passive sliding base isolation systems reduce interstorey drifts and superstructure accelerations, but with increased base displacements, which is undesirable, under large velocity near fault pulse type earthquakes. It is a common practice to incorporate non‐linear passive dampers into the isolation system to reduce bearing displacements. Incorporation of passive dampers, however, may result in increased superstructure accelerations and drifts; while, properly designed passive dampers can be beneficial. A viable alternative is to use semiactive variable stiffness systems, which can vary the period of the sliding base isolated buildings in real time, to simultaneously reduce bearing displacements and superstructure responses further than the passive systems, which deserves investigation. This study investigates the performance of a 1:5 scaled smart sliding base isolated building model equipped with the SAIVS device analytically and experimentally, under near fault earthquakes, by developing a new moving average non‐linear tangential stiffness control algorithm for control of the SAIVS device. The SAIVS device reduces bearing displacements further than the passive cases, while maintaining isolation level forces and superstructure responses at the same level as the passive minimum stiffness case, indicating the significant potential of the SAIVS system. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献
996.
Analytical equations for the moment–rotation response of a rigid foundation on a Winkler soil model are presented. An equation is derived for the uplift-yield condition and is combined with equations for uplift- and yield-only conditions to enable the definition of the entire static moment–rotation response. The results obtained from the developed model show that the inverse of the factor of safety, χ, has a significant effect on the moment–rotation curve. The value of χ=0.5 not only determines whether uplift or yield occurs first but also defines the condition of the maximum moment–rotation response of the footing. A Winkler model is developed based on the derived equations and is used to analyze the TRISEE experiments. The computed moment–rotation response agrees well with the experimental results when the subgrade modulus is estimated using the unload–reload stiffness from static plate load–deformation tests. A comparison with the recommended NEHRP guidelines based on the FEMA 273/274 documents shows that the choice of value of the effective shear modulus significantly affected the comparison. 相似文献
997.
The felsic dikes of La Gomera (Canary Islands): identification of cone sheet and radial dike swarms 总被引:1,自引:0,他引:1
E. Ancochea J. L. Brndle M. J. Huertas C. R. Cubas F. Hernn 《Journal of Volcanology and Geothermal Research》2003,120(3-4):197-206
On the northern part of La Gomera there exists a great abundance of trachytic–phonolitic dikes showing a broad diversity in dip and strike. Several methods have been applied in order to separate these dikes in different sets, localise the area from where they derive, and reconstruct the geometry of the swarms. The oldest dikes correspond to a radial swarm dated at 8 Ma. The felsic activity migrated then southwestwards and a second radial swarm and a cone sheet complex were developed between 7.5 and 6.4 Ma ago. The cone sheet complex is 10 km in diameter and shared its centre with that of the second radial structure. The cone sheets exhibit an outward decrease of dip angle whilst every individual sheet maintains a constant inclination. This geometry reflects the existence of an ancient single dome-shaped shallow magma chamber situated some 1650 m below present sea level. The eastern radial swarm represents a felsic episode that could mark the ending of the Lower Old Basalts, the earlier subaerial activity of La Gomera. The two other dike swarms represent a younger episode coeval with the Upper Old Basalts. 相似文献
998.
钢筋混凝土异形柱框架结构侧向刚度分析 总被引:1,自引:0,他引:1
根据试验研究、有限元分析和理论分析结果,提出按壁式框架计算截面高厚比较大的异形柱框架结构的侧向刚度,并考虑了梁、柱剪切变形的影响,分别给出了理论计算公式和D值法公式。对填充墙异形柱框架的侧向刚度,可采用框架侧向刚度与填充墙侧向刚度相叠加的方法。 相似文献
999.
Recent studies have shown that for many lateral force‐resisting elements (LFRE) stiffness is dependent on strength, and as a result strength assignment to these elements would affect both the strength and stiffness distributions in a structure. Consequently, stiffness distribution cannot be considered known prior to strength assignment. This paper presents a yield displacement distribution‐based strength assignment strategy that does not require the knowledge of stiffness distribution prior to strength assignment. It is shown that structural systems with their center of rigidity (CR) and center of strength (CV) located on the opposite sides of the center of mass (CM) will have small torsional responses under seismic excitation. Copyright © 2003 John Wiley Sons, Ltd. 相似文献
1000.
本研究系统地对低硬度橡胶隔震支座的材料及力学性能进行了试验研究。研究用低硬度橡胶天然及铅芯橡胶隔震支座18种规格总计近30个大直径隔震支座。研究内容涉及低硬度橡胶隔震支座的基本力学性能,温度、压力、剪切变形、老化及徐变等相关性能,压缩界限、拉伸界限、极限剪切变形等界限性能和屈曲特性,以及橡胶材料性能和隔震工程应用等方面。本文主要介绍低硬度橡胶天然及铅芯隔震支座的压缩、拉伸、剪切等界限性能和屈曲应力与剪切应变的相关特性,文中提出了基于刚度因子建立的橡胶支座的界限压缩和界限拉伸应力评价方程,同时还给出了剪切变形状态下的屈曲应力评价方法。 相似文献