閘墩 的英文怎麼說

中文拼音 [zhádūn]
閘墩 英文
sluic pier
  • : anchor gate
  • : Ⅰ名詞1. (土堆) mound 2. (墩子) a block of stone or wood Ⅱ量詞(用於叢生的或幾棵合在一起的植物) cluster
  1. The stress status of concrete at face of sluice pier in the case of cold wave, pipe cooling and cast - in - place partial sluice pier and so on

    研究了寒潮、水管冷卻、整澆部分墻體等情況下閘墩表面混凝土應力分佈狀況。
  2. Two numerating methods are used in traditional structural design of gate chamber. first, considering the gate frusta to be fastened on the weir body, it is calculated as plane stress problem independently. then applying the results ( moment and vertical force ) on the bottom of gate frusta as concentrating load on the weir body, and the weir body is viewed as a elastic foundation beam or plate and unilateral stress analysis was performed

    傳統室結構計算有兩種計算方法,其一是將閘墩視為固端于堰體上,單獨進行閘墩平面受力計算,再將閘墩下部的計算結果(彎矩和垂直力)作為集中荷載作用於堰體上,堰體作為彈性地基梁或板進行片面應力計算。
  3. Traditionally, loads of the arc gate are applied on the support or gate frusta as a set of concentrated load, but the effect range of such load on the frusta cannot be solved by material mechanics and structure mechanics. most of the load cases are fulfilled through optic - elastic test

    通常弧門荷載作為一組集中荷載作用於牛腿或閘墩上,而這組荷載對閘墩受力的影響范圍材料力學方法和結構力學方法是不能解決的,受力狀況大部分是通過光彈試驗完成。
  4. With the further economic growth and the implement of development of the western regions, hydroelectric construction in our country is undergoing rapid growth, anumber of high - dam power - station is in building or in programming. in view of its higher - head and larger magnitude of spill structure outlet, it is difficult for conventional concrete or reinforced concrete structure of pier and pier room to support its vast water pressure. coupled with the improvement of prestressed method, it has been the noteworthy tool in solving the problem

    隨著我國經濟的加速發展及西部大開發戰略的實施,我國水電事業也迎來了迅猛發展的大好時機,一批高壩水電站正在建設或規劃之中,其泄水建築物孔口及水頭愈來愈大,常規混凝土或鋼筋混凝土閘墩結構難以承受如此之大的水推力作用,隨著預應力技術的成熟,這一技術已成為解決該問題的關鍵技術措施之一。
  5. Thermal stress of pak phanang barrage pier

    巴帕南水閘墩整體澆築溫度應力研究
  6. Slipform construction of songshan spillway weir gate pier on songjianghe river

    松江河松山溢洪道工程堰首閘墩滑模施工
  7. The result show that the position of free surface is higher because of frusta of brake, especial obvious in the head of frusta of brake ; flux coefficient and pressure on dam are quite influenced by type of frusta and 3 a type frusta of brake relative to 2 type frusta of brake has bigger flux coefficient and smaller pressure on dam ; obvious influence of ability of discharge flow for different ratio of thickness of frusta and breadth of brake and pressure on dam reduces with increasing ration of thickness of frusta and breadth of brake, while bigger flux coefficient is obtained when tlb = 0. 2

    結果表明,閘墩河海大學博士論文的存在抬高了水面線的位置,其中在閘墩頭部尤其明顯;型對流量系數和壩面壓力影響較大, 3a型閘墩相對於2型閘墩具有更大的流量系數和更小的壩面壓力:不同的寬比t / b對泄流能力也將產生顯著的影響,隨著寬比的增加,壩面壓力降低,而當t / b二0 . 2時溢流壩具有更大的流量系數。
  8. Introduced by prestressed pier in the gate of spillway in xiao xia hydroelectric power station, the text reasonably established 3 - d finite elements mechanic model by the advanced finite elements popular in the world which can expediently impose tension of anchor funicular at its place. it also considered possible diversified combination of loading, and indicated that the effect of its prestressed action is fruitful compared with its conventional counterpart by study of mechanic calculation in comparison. as a result, it vastly improved burdening state of pier. by analysis of 3 - d finite element method, it also gained the stress result indifferent boundary conditions such as breast wall joint support and fixed support, and the displacement result in diversified loading combination. those results gained the instructive and reference value in design of prestressed pier

    本文結合黃河小峽水電站泄洪預應力閘墩這一工程實踐,採用國際上已成熟的有限元方法,合理地建立了預應力閘墩的三維有限元模型,該模型可方便地按預應力錨索的點位施加錨索預張拉力,考慮了可能發生的多種荷載工況組合,並與無預應力閘墩結構進行了對比分析研究,指出其預應力效果是明顯的,可以大大改善閘墩結構的受力狀態,通過三維有限元分析,還得到了胸墻簡支、固端不同情況下的應力成果和各荷載下的位移成果,這些成果的取得對預應力閘墩的設計具有一定的指導和參考價值。
  9. Shankou spillway project has many specific characteristics, for example, the gate frusta and weir body have equivalent thickness, the weir body is low and have corridor, the foundation of the weir body is " high - low foot " " and the side frusta is also used as retain wall. in view of the characteristics, to better analyze the stress distribution on weir body, gate frusta, the joints between gate chamber and weir body, under the condition that the gate chamber is applied with asymmetrical loads and complicated constraints, three dimensional finite element method is applied in this paper

    本文針對山口溢洪道閘墩與堰體底板厚度相當,堰體為低堰且設有廊道、堰體建基面「高低腳」及邊兼作擋土墻等具體特點,在室設計中采山口水利樞紐工程溢洪道室三維有限元整體應力計算分析用三維有限元整體應力計算方法分析室的受力狀態,分析室在荷載不對稱。
  10. Due to the complexity of the load combinations of the gate chamber, it is difficult to perform such test on each load case. on the other hand, it is lack of the test data on the load case perpendicular to the current direction of the gate frusta till now

    由於室的受力荷載組合較為復雜,對每種工況都做光彈試驗不容易做到,且有關垂直水流方向的閘墩受力狀況的試驗資料迄今尚很缺乏。
  11. ( 6 ) 3d integer model of spillway and frusta of brake are established and numerical computation of 3d viscous flow over spillway is completed. the influence of frusta of brake for design parameters such as shape of free surface, pressure on dam, flux coefficient is computed aim at type of frusta of brake and disposal on dam and compute result of different type of frusta and disposal model is compared

    6 )通過建立溢流壩和閘墩的三維整體模型,完成了對三維過壩水流粘流場的數值計算,針對閘墩的型式及在壩面的布置計算了閘墩對水面線形狀、壩面壓力、流量系數等設計參數的影響,並將不同型與布置形式的計算結果進行比較。
  12. In order to optimize the perpetuation tensioning tonnage of prestressed pier anchor wire of goupitan arch dam, first the scheme contrast method is adopted to define the perpetuation tensioning tonnage combination of the primary and secondary anchor wire, but the optimization result is that the pull - anchor coefficient is too big ; then the body form of the pier is optimized ; finally the anchor wire perpetuation tensioning tonnage is optimized by using ansys optimization design module based on parametric fem, the optimization result is acceptable and the pull - anchor coefficient is lowered down

    摘要為優化構皮灘拱壩中孔預應力閘墩錨索永存張拉噸位,首先採用方案優選的方法確定主次錨索永存張拉噸位組合,但優選結果拉錨系數偏大,再對閘墩體型進行優化,然後採用基於參數化有限元的ansys優化設計模塊對主次錨索永存張拉噸位進行優化,優化結果滿足應力控制要求,降低了拉錨系數。
  13. The study result indicated that the free vibration of the dam will be affect by opened hollow and pier added on dam

    研究表明考慮孔口和閘墩對大壩的自振特性有一定的影響。
  14. The study result that there is slightly stress concentrated in the aera of the dam which with opened hollow and pier added. by the tension stress is more over the design intension, we need more reinforcement to resisted the stress

    結果表明在孔口和閘墩附近出現了程度不太嚴重的應力集中現象,但拉應力超出抗拉設計強度較多,有必要採取配筋等措施來抵抗動力作用下的拉應力。
  15. The main component of this article is study arch - dams stress distribution in difference earthquake and difference water level with finite element analysis. and the study compare the adversed stress distribution on the position whether existed opening hollow areas and pier or not

    在考慮了壩身開孔和閘墩的存在後,壩體應力場也將發生一定的變化,特別是在開孔及閘墩附近,與不開孔及無閘墩情況相比將會有顯著的不同。
  16. For vibration mode - shape, this affect is more severity on high rank stage vibration than low. with opened hollow and pier added on dam, the frequency of vibration decline. although the array of low rank vibration mode - shape is changed, the dynamic characteristic of the dam not in evidence change

    對于振型而言,這種影響對低階振型比高階振型大,考慮孔口和閘墩后,大壩的自振頻率有所降低;在低階振型中有一部分的排列順序(大小關系)發生了變化,但這些變化不致使大壩的動力特性發生顯著的改變。
  17. The result of the study included two aspect : one is the affection when hollow opened and pier on arch - dam with statics calculation, earthquake response spectrum analysis and analysis of time - history i. e step - by - step integration analysis

    本文完成的主要工作有兩個方面:一是通過靜力分析、反應譜分析和時程分析研究壩身開孔及閘墩對壩體整體動力反應的影響。
  18. This article is part of the study of national item which is important part of high arch - dam earthquake protection. in the result of studying the effect to earthquake, the article analysis dam - stress at diference earthquake wave, to procure design parameter on the gate & pier areas

    本課題是「九?五」國家重點科技公關項目中有關高拱壩抗震分析的組成部分,是在有關研究成果的基礎上,對已確定的壩型及其壩體及附屬物(閘墩、孔口)進行動力分析,確定有關設計參數,同時也是對以往研究成果的校核。
  19. Two is study dynamic stress of earhthquke response, to get the support data of reinforcement in hollow areas

    二是研究閘墩的動力反應及其附近區域的動應力,為閘墩的結構設計和問及孔日的配筋提供依據。
  20. The article introduces the technical process and the practice of the xypex waterproofing material in the application of repairing the fuyang floodgate pillar

    摘要文章介紹了xypex防水材料在阜陽閘墩修復中的工藝流程、施工方法。
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