Numerical simulations of shake-table experiment for dynamic soil-pile-structure interaction in liquefi able soils

A shake-table experiment on pile foundations in liquefi able soils composed of liquefi able sand and overlying soft clay is studied. A three-dimensional(3D) effective stress fi nite element(FE) analysis is employed to simulate the experiment. A recently developed multi-surface elasto-plastic constitutive model and a fully coupled dynamic inelastic FE formulation(u-p) are used to model the liquefaction behavior of the sand. The soil domains are discretized using a solid-fl uid fully coupled(u-p) 20-8 noded brick element. The pile is simulated using beam-column elements. Upon careful calibration, very good agreement is obtained between the computed and the measured dynamic behavior of the ground and the pile. A parametric analysis is also conducted on the model to investigate the effect of pile-pinning, pile diameter, pile stiffness, ground inclination angle, superstructure mass and pile head restraints on the ground improvement. It is found that the pile foundation has a noticeable pinning effect that reduces the lateral soil displacement. It is observed that a larger pile diameter and fi xed pile head restraints contribute to decreasing the lateral pile deformation; however, a higher ground inclination angle tends to increase the lateral pile head displacements and pile stiffness, and superstructure mass seems to effectively infl uence the lateral pile displacements.

Shake table experimental study of cable-stayed bridges with two different design strategies of H-shaped towers

As one of the main load-carrying components of cable-stayed bridges,bridge towers are typically required to remain elastic even when subjected to severe ground motions with a 2%-3%probability of exceedance in 50 years.To fulfill this special requirement imposed by current seismic design codes,reinforcement ratios in the bridge towers have to be kept significantly higher than if limited ductility behavior of the tower is allowed.In addition,since the foundation capacity is closely related to the moment and shear capacities of the bridge tower,a large increase in bridge construction cost for elastically designed cable-stayed bridge is inevitable.To further investigate the possibility of limited ductility bridge tower design strategies,a new 1/20-scale cable-stayed bridge model with H-shaped bridge towers designed according to strong strut-weak tower column design was tested.The shake table experimental results are compared with a previous strong tower column-weak strut designed full bridge model.A comparison of the results show that ductility design with plastic hinges located on tower columns,i.e.,strong strut-weak tower column design,is another effective seismic design strategy that results in only small residual displacement at the top of the tower column,even under very severe earthquake excitations.

在Mathematica中用Table函数生成数组问题的探析

随着计算机的普及,数学用表逐渐成为历史。Mathematica强大的、高精度的数值计算功能为数学研究和数学实验提供了一个强有力的工具。因此探析在Mathematica中应用Table函数生成数组问题的格式、功能和适用范围就显得十分必要。

Experimental Study on Free Spanning Submarine Pipeline Under Dynamic Excitation

Seismic load has a significant effect on the response of a free spanning submarine pipeline when the pipeline is constructed in a seismically active region. The model experiment is performed on an underwater shaking table to simulate the response of submarine pipelines under dynamic input. In consideration of the effects of the terrestrial and submarine pipeline, water depth, support condition, distance from seabed, empty and full pipeline, and span on dynamic response, 120 groups of experiments are conducted. Affecting factors are analyzed and conclusions are drawn for reference. For the control of dynamic response, the span of a submarine pipeline is by far more important than the other factors. Meanwhile, the rosponse difference between a submarine pipeline under sine excitation and that under random excitation exists in experiments.

Response of a pile group behind quay wall to liquefaction-induced lateral spreading:a shake-table investigation

The response of pile foundations near a quay wall under liquefaction-induced lateral spreading remains a complex problem. This study presents the results of a shake-table test on a 2×2 pile group behind a sheet-pile quay wall that was subjected to lateral spreading. The quay wall was employed to trigger liquefaction-induced large lateral ground deformation. The discussions focus on the behavior of the pile and the soil and on the bending moment distributions within the group pile and the restoring force characteristics at the superstructure. Overall, the piles exhibited apparent pinning effects that reduced soil deformation. In addition, the rear-row piles near the quay wall experienced larger bending moments than did the front-row piles, indicating significant pile group effects. The tests showed that lateral spreading could be a primary cause of larger monotonic deformations and bending moments. It can also be concluded that the monotonic bending moments were significantly decreased due to the presence of slow soil flow. The stiffness at the superstructure was reduced because of accumulated excess pore pressure before liquefaction, and it was recovered during lateral spreading. The present study further enhances current understanding of the behavior of low-cap pile foundations under lateral spreading.

Experimental Study on Seismic Performance of Tall Building with Steel Transfer Trusses Located at a Higher Level

Based on a shaking table experiment of 1 :25 scale frame-shearwall structure model with steel transfer trusses,the dynamic characteristics,seismic responses in elastic and elastic-plastic phases with de- structive forms of the structure were studied.It was observed that cracks were developed with earthquake wave acceleration increasing,but no severe crack was developed in the structure during the experiment.In the seismic responses caused by artificial wave,site wave and E1 Centro wave,that caused by the artificial wave is the most intense one.Displacement angle between steel transfer trusses is large,which means the transfer stories might be weak.However,the seismic performance of the steel transfer trusses is good and the overall structure can satisfy seismic fortification requirements in the region of intensity 6.

YQS-B液压气动综合实验台在教学中的应用

该实验台是根据《液压气动传动》、《气动控制技术》等通用教材设计而成可进行常规的气动、液压基本控制回路实验,还可进行液压,气动组合应用实验及液压、气动技术课程设计。本文介绍了该综合实验台的组成特点以及在《液压与气压传动》教学中的应用,使学生能直观的认识传动原理,更进一步的掌握液气压控制知识。

可液化地基中隧道上浮的模型试验研究

地下隧道在修建过程中不可避免会穿越可液化地层,在地震作用下会发生砂土液化从而导致结构破坏。以安徽省亳州市汤王大道过河隧道工程为背景,采用室内振动台试验进行缩尺模型的设计与研究,分析地基土体与隧道结构的振动液化响应规律,研究过河隧道工程在地震液化时的上浮变形机理。结果表明:上层土体达到液化时会较下层延迟1.5 s左右,表明上部土体抗剪强度的衰减比下部土体更加明显;土体深度越大,超静孔压上升越快,且峰值越高;振动开始时由于下层土体先液化,会导致一定的向下位移,之后由于浮应力大于有效承载力导致隧道逐渐上浮并趋于稳定,当振动结束后位移的上浮量为8.9 mm。

基于变形的降雨后地震基覆型边坡劣化特性与机制研究

降雨地震多因素作用下基覆型边坡破坏模式的识别和评估具有重大工程意义。为研究降雨后地震作用下基覆型边坡的失稳演化机制,开展一组大型振动台模型试验,基于边坡土体空间变形特性和坡面位移特性识别和评估边坡的劣化模式,综合土体应力−应变特性、渗流场特性、地震动应力分布及边坡变形特性,对降雨后地震下边坡的变形演化机制进行探讨。结果表明:(1)降雨阶段,边坡坡顶与坡脚饱和度显著升高区强度劣化显著,但整体无明显变形;地震阶段,坡顶首先滑塌失稳,进一步演化为多级滑塌的整体失稳。(2)宏观破坏具有突发特征,边坡内部土体的空间应变分布特性能更好地识别边坡塑性区扩展−贯通−失稳的演化历程。(3)基于位移残余率分析的边坡失稳演化模式与土体空间应变演化特性结果吻合,相较于累积位移量对边坡损伤状态的识别更准确。(4)含水率变化影响土体力学特征,降雨后的渗流场分布影响边坡整体力学特性及地震动应力的传递及空间分布,土体力学特性和动应力空间特征决定边坡的破坏模式。

基于UCD与问题导向的单人阅览桌改良设计研究

为提升高校学生在图书馆内单人阅览桌的使用体验。首先,运用UCD设计思维与方法,获取用户需求,聚焦本质问题,再结合问题导向思维,将本质问题对应的用户需求层级转换为核心问题、基础问题和延伸问题,分解成若干问题微单元,最后精确锁定,逐个侦破。提出了图书馆单人阅览桌的改良设计方案。以UCD与问题导向结合的设计思维,能有效避免设计过程中的伪需求和伪问题的产生,落实产品设计研发。

长汀生态恢复区不同混交比例针阔混交林内马尾松种群动态及其驱动机制

[目的]分析我国亚热带生态恢复典型先锋物种马尾松在不同混交比例针阔混交林内的种群动态及其驱动机制,为深入理解亚热带植被重建与恢复进程奠定基础。[方法]基于福建省长汀县生态恢复区4块不同混交比例针阔混交林内马尾松种群调查数据,构建积分投影模型并运用弹性分析、生命表响应试验等方法,探究混交林内马尾松种群动态及其驱动机制。[结果]针阔混交林内马尾松种群整体表现为持续衰退状态(种群增长率λ<1),随着阔叶树种在林分中相对多度增加,马尾松个体平均存活率和平均繁殖率以及λ均呈先上升后下降趋势。弹性分析表明,个体存活对混交林内马尾松种群增长最重要,小径级个体正生长利于种群发展,繁殖对种群增长的影响较为有限。随着阔叶树种相对多度增加,对马尾松种群增长最重要的个体逐渐由幼苗转变为成年树,种群维持风险逐渐增大。生命表响应试验显示,个体生长差异是不同混交林间马尾松种群增长差异的主要来源。[结论]随着阔叶树种混交比例上升,马尾松种群内幼苗和幼年树的比例和重要性持续降低,成年树的比例和重要性不断增加,不同生活史阶段个体生命率的差异化响应驱动马尾松种群动态变化。

基于运动形式转化利用转动惯量虚拟平动惯性质量的TMD控制系统

针对调谐质量阻尼器(Tuned Mass Damper,TMD)通常需要较大的附加质量,安装空间受限以及质量块运动时需要较大的行程等问题,基于平动‐转动运动形式相互转化和能量守恒原理,本文提出了利用转动惯量虚拟平动惯性质量的TMD控制系统(Rotary inertia virtualizing translational mass based Tuned Mass Damper,简称RTMD),进行RTMD控制系统的设计概念,以单自由度结构对象为例建立了附加RTMD控制系统的运动方程,分析了RTMD控制系统参数对结构振动控制效果的影响规律。结果表明控制效果与系统的质量比、惯质比、阻尼比等参数密切相关,相关规律也可以推广到一般多自由度结构体系一阶振动的调谐吸振减振控制。进行了模型振动台试验研究,时域分析和频域分析结果均表明,试验结果与基于理论模型的数值分析结果一致性良好,验证了RTMD控制系统理论模型的正确性、设计参数的合理性以及控制系统应用于实际问题的可行性。

基于转台实验的MEMS陀螺仪自动化标定软件设计

MEMS陀螺应用广泛但是误差很大,使用前需要进行标定,在MEMS陀螺的转台标定实验中,数据处理繁琐,基于此,文中设计了MEMS陀螺的自动化标定软件,软件实现了对阶梯状曲线的自动分段识别,并通过可视化界面对数据进行了显示。经过测试证明了软件可以完成自动化标定与数据可视化的工作,在一定程度上提高了实验的效率。

小型铅芯橡胶支座剪切性能试验研究

通过对小型铅芯橡胶支座(LRB)进行剪切试验,研究了支座剪应变、压应力和加载频率对支座等效水平刚度、屈服后刚度、屈服力和等效阻尼比的影响。结果表明:随着剪应变的增大,支座的等效水平刚度和屈服后刚度减小,屈服力增大,等效阻尼比呈线性减小;随着竖向压应力的增大,支座的等效水平刚度减小,屈服后刚度呈线性减小,屈服力和等效阻尼比呈线性增大;加载频率对支座的剪切性能基本没有影响,可以忽略;100%剪应变以内,施加的剪应变和压应力没有对隔震支座造成损伤;剪应变超过100%的大变形和大压应力会使支座进入塑性,造成支座部分永久性损伤。建议根据振动台试验的工况顺序及支座在振动台试验的最大实际变形设计拟静力试验的工况。提出日本规范等效水平刚度计算公式的修正系数,并与振动台试验实测值进行对照,证明了修正后的计算公式计算精度有所提高。

灌溉、施肥和浅水埋深对小麦产量和硝态氮淋溶损失的影响

利用ArcGIS9.0软件中嵌套地质统计模块分析河套灌区浅层地下水埋深(2009年)空间分布状况,结合在2010年3-7月间开展的灌溉量、施氮量和浅层地下水埋深对春小麦产量和土壤中硝态氮淋溶损失影响的显著性以及最优组合研究,确定出适用于河套灌区内不同区域的春小麦农业管理的最优综合模式。研究表明,表层(0～80 cm)土壤含水率随着浅水埋深的增大而减小,当浅水埋深≥2.0 m时,在同一浅水埋深水平下灌溉量成为土壤含水率显著影响因子;对春小麦产量影响程度高低是浅水埋深>灌溉量>施氮量,影响显著因子为浅水埋深;对硝态氮淋溶量影响程度高低是灌溉量>施氮量>浅水埋深;灌溉量对硝态氮淋溶影响呈极显著性,施氮量对其影响呈显著性,而浅水埋深起到辅助作用。灌区年均浅层地下水埋深主要有3个阈值:1.25～1.75、1.75～2.25和2.25～3.00 m。在灌区内浅水埋深不同区域内(1.5、2.0和2.5 m)时,三因素最优综合组分别为灌溉量(280 mm)+施肥量(尿素150 kg.hm-2,二铵165 kg/hm2)、灌溉量(320 mm)+施肥量(尿素150 kg/hm2,二铵165 kg/hm2)和灌溉量(360 mm)+施肥量(尿素255 kg/hm2,二铵375 kg/hm2)。

大型地下洞室群地震模拟振动台试验研究(Ⅰ):岩体相似材料配比试验

结合大型地下洞室群地震模拟振动台模型试验研究,根据相似原理,利用正交试验和二次细化试验相结合的试验方法,对岩体相似材料进行配比试验。选用铁精粉、重晶石粉和石英砂作为骨料,石膏为胶凝材料,甘油为调节剂。正交试验以相似材料的密度、抗压强度和变形模量为控制指标,通过极差分析得到各影响因素的重要程度,并在此基础上进行二次细化试验,二次细化试验增加测试相似材料的抗拉强度。这种组合试验方法可通过较少的试验次数得到符合相似指标要求的材料配比,大大提高了配比试验的效率。试验得出的相似材料配比与物理力学指标的变化规律及运用组合试验高效确定具体配比的方法,对类似工程动静力模型试验相似材料模拟具有一定的参考意义。

现场与试验室情境下乒乓球运动员对发球旋转判断的比较研究

以采用试验室录像视频和现场发球旋转判断为任务,分析运动员不同试验条件下判断反应时间和准确性之间的差异,探讨试验研究刺激材料的生态学效度对研究结果的影响。选取6名国家乒乓球女队运动员为研究对象,运用重复测量方差分析方法和卡方检验进行分析,研究结果表明:(1)不同试验条件对运动员旋转方式的操作绩效有影响,现场情境下运动员的操作绩效高,试验室情境下运动员的操作绩效低;现场情境下研究的生态学效度,运动员表现为较高判断正确率和较快判断反应时间。(2)不同试验条件下运动员的旋转方式判断存在差异,现场条件下运动员侧下旋判断准确性高,对转球判断准确性最低,在试验室条件下运动员对转球判断准确性高,对不转球准确性最低。

LRB隔震结构模型振动台试验研究(1)

为研究大高宽比隔震结构的多维抗震性能,对一缩尺1∶4比例高宽比为5的铅芯橡胶垫隔震结构模型进行了水平和竖向双向地震波输入下的振动台试验研究.通过输入不同大小和类型的地震波,分析隔震上部结构和隔震支座的地震反应.试验结果表明:隔震上部结构减震效果较好;隔震支座在某些工况下,竖向可进入非线性受拉变形状态,此时的结构存在倾覆危险.试验相关数据的分析可为隔震结构设计理论和规范的编制提供参考.

巨型框架结构的动力性能研究及设计建议

根据采用巨型框架结构体系的南京多媒体综合大楼 1∶2 5微粒混凝土模型的模拟地震振动台试验 ,着重研究了巨型框架结构的动力特性、弹性和弹塑性地震反应及结构的破坏形式 。

网壳结构的粘滞阻尼减振分析与试验研究

本文将粘滞阻尼器引入网壳结构，针对网壳结构粘滞阻尼器减振系统，编制了有限元分析程序，并对网壳结构进行了大量的振动控制分析和计算．作者设计制做了适合网壳结构的粘滞阻尼器，进行了性能试验；在此基础上设计制作了一个球型网壳结构模型，并进行了粘滞阻尼器减振的地震模拟振动台试验。