1) steel anchorage
钢锚碇
2) steel sheet pile anchorage
钢板桩锚碇
3) anchorage
[英]['æŋkərɪdʒ] [美]['æŋkərɪdʒ]
锚碇
1.
Test study on mechanism of shear-slip of anchorage in suspension bridge;
悬索桥锚碇剪切滑移的机理及试验初探
2.
Design and construction of anchorage system for steel cofferdam;
泸州长江大桥主墩钢围堰锚碇系统的设计与施工
3.
Finite Element Analysis on the Temperature Field of the Massive Concrete Anchorage of Haicang Bridge
海沧大桥大体积混凝土锚碇温度场有限元分析
4) anchor
[英]['æŋkə(r)] [美]['æŋkɚ]
锚碇
1.
As an important part of supporting structure,anchoring controls the project progress of suspension bridge.
锚碇作为承力结构的重要部分,是悬索桥的重点控制性工程。
2.
The paper introduces the experience of applying D-B model to the construction of the south anchor of Wuhan Yangluo Changjiang Highway Bridge.
介绍武汉阳逻长江公路大桥南锚碇工程采用设计-施工总承包模式的经验,对相关的招标和项目管理工作进行总结。
3.
Engineers made 2 plans for position of prestressed steel pipes of the north anchoring system of Wuhan Yangluo Changjiang River Road Bridge.
武汉阳逻长江公路大桥北锚碇锚固系统预应力钢管定位,采用了门式桁架初步固定预应力钢管、安装过程中用全站仪测量,并通过微调装置控制的方法。
5) anchor mound
锚碇
1.
The main steps to prevent temperature crack in anchor mound mass concrete of Changjiang River Bridge in Yichang are described, and all kinds of temperature control methods and effect was present.
介绍了宜昌长江大桥锚碇大体积混凝土施工防止温度裂缝的主要过程 ,并对各种温控措施及其效果进行了评述 ,证明所采取的措施是行之有效和切合实际的。
2.
In this paper,the result of mass concrete temperature monitoring Haicang Bridge east anchor mound is introduced.
介绍了海沧大桥东锚碇大体积混凝土的温度监测结果,结合温控标准研究温控措施的效果。
3.
It is described that the main regulative steps of temperature to prevent slits in the enormous concrete anchor mound construction that is in rock of deep base pit in the south bank of Changjiang River Bridge in Jiangying.
介绍了江阴长江大桥南锚碇深基坑嵌岩锚大体积混凝土施工防止裂缝的主要温控措施。
6) anchoring
[英]['æŋkə] [美]['æŋkɚ]
锚碇
1.
Stability Analysis of the Rockmass in the East Anchoring Area of Guang Dong Humen Bridge;
广东虎门大桥东锚碇岩体稳定性分析
2.
Southern anchoring foundation of RunYang suspension bridge across Yangtse River is a tremendous gravity structure of con-crete.
润扬长江公路大桥南锚碇基础为混凝土重力式结构,体积巨大,基坑采用冻结法止水。
补充资料:预应力锚夹具用钢
制作预应力构件用锚夹具的钢材。每一种锚具或夹具都是由几个零件所组成。各零件由于功能要求、冷热加工方法和生产工艺不同,因而所用钢材也各不相同。目前,消耗量最大、用途最广的是中碳钢和中碳低合金钢,其中以优质碳素钢45为主。工作应力较低的零件,是以热轧圆钢直接制成;工作应力较高的零件,则常在冷加工后进行调质处理。夹持式的锚具和夹具中,与预应力筋接触的带齿零件,需要具有更高的表面硬度来提高锚、夹具的锚固性能。所以采用优质碳素钢45和弹簧钢(如65锰等)时,要求用盐液淬火后经低温回火处理;采用低碳或低碳低合金钢(如优质碳素钢15、20或20铬等)、低碳易切削钢(如易20等)时,要求表面渗碳或碳氮共渗。预应力筋强度不高、锚具效率要求不高时,也曾大量使用过铸钢(相当于中国的ZG45)。
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