1)composite dam混合坝
1.Structural patterns of junction of composite dam and aseismic safety;混合坝接头型式与抗震安全性分析
2.Centrifugal and numerical analysis on the compatible deformation of the jointing blocks of a composite dam;混合坝型衔接坝段协调变形离心模型试验与数值分析
3.Static and Dynamic Characteristics Analysis on the Junction of Inserted Type Composite Dam;插入式混合坝接头部位静动力特性分析
英文短句/例句
1.Static and Dynamic Characteristics Analysis on the Junction of Inserted Type Composite Dam;插入式混合坝接头部位静动力特性分析
2.FEM Static and Dynamic Analysis of the Connection of Inserted Type Mixed Dam;插入式混合坝接头部位有限元静动力分析
3.dam - diversion type hydroelectric power station坝-引水混合式水电站
4.Method of Dam Deformaiton Analysis Based on ARMA Mixed Regression Model基于ARMA混合回归模型的土坝变形分析
5.The coupled system dynamical characteristic anlysis of chut-flow-dam body of overfall concrete face rockfill dam溢流混凝土面板堆石坝的泄槽—水流—坝体耦合系统动力特性分析
6.Application Combining Gray Relation with Mixed Model in Dam′s Deformation Analysis灰关联与混合模型相结合在大坝变形中的应用
7.Test and Study on the Concrete Mix Proportion for Dam Body of Dashankou Hydropower大山口水电站坝体混凝土配合比的试验研究
8.Dam Building Using Gravel-Sand Mixture in Dry Aeolian Sand Region in Central Ningxia Hui Autonomous Region宁夏中部干旱风沙区砾砂混合料筑坝分析
9.Coupling Analysis on Seepage and Stress Fields in Longtan Roller Compacted Concrete Gravity Dan龙滩碾压混凝土坝渗流场与应力场耦合分析
10.Design and Application of RCC Mix Proportion in the Dam of Fenhe Ⅱ Reservoir汾河二库坝体碾压混凝土配合比设计及其应用
11.Technical study of mixed pond for red mud from Bayer process and red mud from sintering process拜耳法赤泥与烧结法赤泥混合堆坝的技术研究
12.Coupling Analysis of Seepage Field and Stress Field for Concrete Face Rockfill Dam;混凝土面板堆石坝渗流场与应力场的耦合分析
13.Researches of RCC Super Retarding Compound Additive;碾压混凝土坝超缓凝复合外加剂的试验研究
14.Back analysis of dam foundation elastic constant of hydropower station;用混合模型反演法计算水电站坝基弹性模量
15.The Study of Dam Safety Monitoring Analysis and Evaluation System Based on Mixed Programme基于混合编程的大坝安全监测评价系统研究
16.The application of the mixed-energy-dissipation in narrow-based bucket in the low dam of qiaogong hydroelectic power station“戽底设窄缝混合消能”在桥巩水电站低坝的应用
17.Application of Mixed-language Programming in Optimal Design of Cross Section of Gravity Dam混合编程在重力坝断面优化设计中的应用
18.Simulation Analysis on Compound and Permanent Heat-insulating Board Used in Concrete Dam混凝土坝复合式永久保温板的仿真分析
相关短句/例句
Mixed dam混合坝
1.In this paper,the equivalent linear elastic constitutive model is chosen to analyze the dynamic response characteristics of material for soil and debris filled dam,and thin-layer contact elements are used to simulate soft joint surfaces between concreted dam and mixed dam.选用等效线性本构模型模拟了土石坝材料动力特性,采用有厚度薄层接触单元模拟了混凝土坝与土石坝软接头接触面,并通过时程分析方法对规则侧墙式混合坝算例进行有限元动力计算,分析了接头处接触面动力反应对于接触面坡度变化的敏感性。
3)blend dam混合坝
1.of the roller compacted concrete-face rock fill blend dam is studied by centrifugal model test,and its general stress-deformation behaviour of this new type dam before and after retaining water are revealed.采用离心模型试验对碾压砼-面板堆石混合坝的应力变形特性进行了分析研究,表明了该新坝型在蓄水前后应力变形的一般规律。
4)composite earth dam混合式土坝
5)earth-rockfill dam土石混合坝
1.3D FEM analysis of deformation and stress for a high earth-rockfill dam with core wall on deep overburden深覆盖层上壤土心墙土石混合坝三维有限元应力变形分析
6)inserted type mixed dam插入式混合坝
1.Nowadays, there is little seismic analysis of the connection of mixed dam, hence the inserted type mixed dam is selected as the subject of this research.针对混合坝接头部位地震分析比较少,笔者选择了插入式混合坝进行研究,在混凝土刺墙与粘土心墙两种材料接触面上用极薄层单元来模拟,选用沈珠江弹塑性模型和等价非线性粘弹性模型。
2.In this article inserted type mixed dam is selected to research.本文选择插入式混合坝对其进行研究,在混凝土刺墙与粘土心墙两种材料接触面上用极薄层单元来模拟,并讨论薄层单元计算参数对混合坝反应的影响。
延伸阅读
坝-引水混合式水电站 采用坝和有压引水道共同集中水头,或主要用坝取得水头,并依靠引水道引水以开发水能的水电站。坝集中一部分落差外,再通过有压引水道(隧洞、管道等)集中坝下游河段的另一部分落差,形成电站的总水头。这种开发方式具有坝式水电站和引水式水电站的共同优点,当河段上游坡降较缓且有筑坝建库条件,而下游河段坡降很大(如有急滩、跌水或大河弯)的情况下,特别适用于这种布置形式。 坝-引水混合式水电站的特点是:①坝与厂房分开,二者用较长的压力水道(隧洞、钢管等)连接;②上游有水库,能进行径流调节,提高枯水季的发电引用流量;③电站的水头由坝抬高上游水位和引水道集中沿程落差而得,水头较大,但坝的高度和水库淹没损失均较小;④在引水道末端与进厂前的高压水管间,一般设有调压室等调压设施,如采用地下式厂房,且尾水隧洞较长时,还可能要设置尾水调压室(图a)。 坝-引水混合式水电站与引水式水电站和某些坝后式水电站有时难以明确划分,一般应以坝和引水道所获得的水头均能达到电站设计水头的较大比重时,方能称为坝-引水混合式水电站。当采用土石坝或虽采用混凝土坝而在坝下游直接布置厂房有困难时,也可在距坝较近的距离,利用通过或绕过坝体的引水管道将水引入厂房。这时,水电站厂房等建筑物与坝分开,自成系统(图b、c)。有时虽然将这种布置方式也称为坝-引水混合式水电站,但是其坝和厂房集中在很短的一个河段中,电站的水头基本上全部由坝壅高水位获得,实质上仍是坝式水电站。 中国建造了较多的坝-引水混合式水电站,如狮子滩、流溪河、古田溪一级等水电站,坝与引水道所得水头各占水电站设计水头的二分之一左右。湖南镇、云峰等水电站的水头主要由坝获得,引水道得到的水头所占比重甚小,类似坝式水电站。而鲁布革、下马岭、铁门关等水电站的水头主要由引水道得到,由坝所得到的水头仅及电站设计水头的四分之一左右,又近似引水式水电站。
