1) cable system
拉索体系
2) cables
拉索
1.
Corrosion of steel wire in cables is a major cause of cable-stayed bridge deterioration.
应用伏安极化法和中性盐雾腐蚀试验研究了张力作用下斜拉桥拉索镀锌钢绞线在5%NaC l溶液中腐蚀行为。
2.
The main layouts of cables for two-layer prestressed lattice shell structure are internal layout and external straight line and broken line layouts.
本文提出一种新型布索结构形式,且以拉索预应力双层柱面网壳结构为例,研究了用高强钢索代替网壳沿短跨方向的下弦所有杆件,当每段索上施加不同预应力时所引起的结构内力和位移的变化规律,并与其它布索方案进行对比分析,突出了该结构的特点和优势,为工程应用提供了新的结构形式。
3.
Based on the essence of the structural prestresses, the concept of initial defectiveness length as well as influence matrices, a novel spatial relative stiffness matrix technique was put forward to analyze and optimize the tension order and the initial tension force control of cables in cable-stayed spatial reticulated structure (CSRS).
基于拉索初始缺陷长度的概念和对预应力产生本质的分析,引入影响矩阵原理,提出拉索空间相关刚度矩阵法,用于研究索系张拉次序和张拉力控制问题及其对结构内力和合理构型的影响。
3) stay cable
拉索
1.
Wind/rain-induced stay cable vibration and its mitigation have gained many researchers,attention recently.
斜拉索的风雨振动及其控制是目前国内外研究的热点问题之一。
2.
The large amplitude cable vibration often is induced due to low damping and small stiffness of stay cable.
斜拉桥拉索固有阻尼低、刚度小,容易引起大幅振动。
3.
The stay cable is a key component of the cable-stayed bridge, witch bears the whole load of the bridge, and large width of the vibration is easy produced under the actions of wind and rain.
拉索是斜拉桥的关键构件,承受桥梁的全部荷载,在风(雨)等作用下容易产生大幅振动。
4) cable
拉索
1.
Research into measures for wind-rain induced vibration resistance of cables of Guanyinyan Changjiang Bridge;
观音岩长江大桥拉索抗风雨振措施方案研究
2.
Passive control for parametric vibration of cables using viscous fluid dampers;
黏滞阻尼器对拉索参数振动的控制分析
3.
Research on the Cable Antiseptic System of the Nanjing No.3 Yangtze River Bridge;
南京长江第三大桥斜拉索的防腐系统研究
5) tensile cable
拉索
1.
The gymnasium roof adopts pre-stressed cable-suspended cross steel truss structure,and tensile cables are tensioned partly by adjusting cable length and partly by tensioning.
江宁体育馆屋盖采用拉索悬吊交叉桁架预应力钢结构体系,其拉索张拉采用部分调整索长、部分张拉的方案,仅通过张拉部分拉索而在其他拉索中也建立了设计所需的预张力,大大减少了设备用量和张拉次数,提高了张拉效率。
2.
Steel frame tensile cable tensioning technology is adopted for the rain shelter of the semi-final competition field in Nanjing Olympic Tennis Center.
南京奥体网球中心半决赛场雨篷采用钢框架拉索下压张拉技术。
6) Acetamide, 2-chloro-N-(2,6-diethylphenyl)-N-(methoxymethyl)-
拉索
参考词条
补充资料:巴拉索尔
巴拉索尔
印度奥里萨邦东北部城市。在布拉巴朗河右岸。人口4.6万。有运河与铁路、公路同加尔各答相通。稻谷集散地。有碾米工业。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。