1) embedding simultaneously
同期埋设
2) simultaneous construction
同期建设
3) embedment
埋设
1.
Monitoring Design and Instrument Embedment of Pandaoling Tunnel During Consolidation Period;
盘道岭隧洞加固处理期监测设计及仪器埋设
2.
Through two field-participated practical engineering,this paper separately introduces the embedding technologies of test tube in single drilling,in bored cast-in-situ pile and in artificial digging pile,in order to correct the error caused by improper embedment of test tube and offer a reference for similar engineering in the future.
通过现场参与的两个工程实例,分别介绍了测斜管在单独钻孔和钻孔灌注桩及人工挖孔桩中的埋设工艺,及时纠正了由于测斜管的埋置不当所引起的误差,希望能对以后的工程起到借鉴作用。
3.
In consideration of the limitation of related criteria and practice of previous projects,especially the limited endurance of instruments to high hydraulic pressure,some technical and managing experience in embedment of interior instruments of pumped storage power stations is analyzed theoretically and practically.
内观仪器埋设观测是抽水蓄能电站水工建筑物安全监测工作的重要内容。
4) lay
[英][leɪ] [美][le]
埋设
1.
After expatiation of the technical difficulties in laying very deep inclinoholes in crumbled rock mass, this paper introduces the method of sleeve drill alternated from grouting to drill hole and the method of grouting by hose pipes bound to inclinopipe from the bottom of high quality very deep inclinohole.
在阐述了破碎岩体中超深测斜孔埋设的技术难点后 ,提出了破碎岩体中测斜孔造孔的“跟浆套钻”工艺以及高质量超深测斜孔埋设的“软管跟管孔底压浆”工艺。
2.
The paper studied and discussed the under-ground drainage technique of ameliorating floodwater farmand in hill area, and also intrdued the methods about designing underdrain, laying underground pipes, choosing pipe-materials and covering filter materials out side in detail.
文中对改良山区渍害田的暗沟排水技术进行了研究和探讨,并具体介绍了暗沟的布局、暗管的埋设、管材与外包滤料的选择等方法。
5) embed
[英][ɪm'bed] [美][ɪm'bɛd]
埋设
1.
The supporting parts field embedding by anchor bars;
锚筋位移法埋设支座埋件
6) burial equipment
埋设设备
1.
Conversion design for cable burial equipment of Type 991(II) cable layer;
991(II)型海缆船更新埋设设备的改装设计
补充资料:闸门埋设件
闸门埋设件
built-in fitting of gate
zhamen malsheiianl’@门埋设件(built一in fitting of gate)埋置在闸门周围污工结构内的各种金属部件。大都是对应于闸门门叶上的有关零部件而设置的。按其作用有:①将门叶上的水压力传递给烤工结构的支承埋设件,如轨道、铰座等;②保证门叶移动时的正确位置和稳定性,避免发生碰撞、卡阻的导引埋设件,如导轨、导板等;③使污工结构具有平整光滑表面的止水埋设件,如止水座、底坎等;④防止门槽磨蚀、空蚀破坏而设置的衬砌护面;⑤防止门槽冬季结冰,影响启闭操作而埋设的加热器件;⑥为临时固定门叶位置而埋设的锁定器底座等。 埋设件要具有①足够的强度、刚度、稳定性、耐磨性和耐久性,以满足运输、安装、埋设和运行各阶段的要求;②埋设件与混凝土间要有足够的粘接强度,由埋设件传给混凝土的力要均匀分散;③考虑到埋设件维护和更换的困难,一般要求它的耐久性高于门叶上相应的零部件;④要采取恰当的锚固措施,使浇筑混凝土时埋设件不发生过量的走样和变形,确保安装精度等。(夏念凌)
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