錨固樁 的英文怎麼說

中文拼音 [máozhuāng]
錨固樁 英文
anchor pile
  • : 名詞(鐵制的停船設備) anchor
  • : Ⅰ形容詞(結實; 牢固; 堅硬) firm; hard; solid Ⅱ副詞1 (堅決地; 堅定地) firmly; resolutely 2 [書...
  • : Ⅰ名詞(樁子) pile; pole; stake Ⅱ量詞(用於事情)
  1. To create a kind of humanized medical environment

    鋼管灌注和鋼筋技術在廠房加中的應用
  2. Secondly, this paper made some theoretic researches on its engineering classfication and applicable scope for this technology ; then combining with project example, this paper carried out scheme design for this technology, and compared some different kinds of underpinning scheme and node and structure design, and put forward the method of " reinforcce steel bar through column " to build pile cap beam, " resistant bend and shear anchored reinforce steel bar " to strengthen column consolidation effect, and the method of " steel plate hoop " to build reinforcing bar connection of the foundation beam, etc. in the process of the consturction scheme research and implement, this paper synthetically elaborated the organizaton for project construction, put forward the construction technical measure of specific aim on the artificial pile, and pile cap beam, and underground adding layer and structure stabilization, and overall structure stabilization and so on. for this project, adopt reinforcing bar concrete to brace hole wall to ensure the safety of engineering in the artificial pile construction, use flexible connection catch to make the cage hoisting easier to simplify the construction process, use the method of earthwork statified symmetrical balance in the process of underground adding layer excavation

    本文首先對于基礎托換與結構加技術的目的和意義、國內外發展狀況進行了綜合闡述;其次對該項技術工程分類及適應范圍進行了理論上的分析研究;然後結合工程實例對該項技術進行了方案設計,對比幾種不同的托換方案和節點及構造設計,提出了「通筋穿柱法」做承臺梁, 「抗彎抗剪筋法」強化柱加效果, 「鋼板箍法」做地基梁鋼筋連接點等多項技術;在施工方案的研究和實施過程中,對于工程施工組織進行綜合闡述,並就人工挖孔、承臺梁、地下加層及結構加、整體結構穩定等專項施工方案提出有針對性的施工技術措施,人工挖孔施工採用鋼筋砼護壁確保挖孔的安全成型,使用柔性連接鉤進行鋼筋籠吊裝簡化施工工序;承臺梁施工採用梁主筋橫穿柱身化學膠等;地下加層綜合施工技術採用土方分層對稱平衡開挖,分段挖土做筏基結構自穩等;最後對于該工程實施后的效果分析,說明該項綜合施工技術的可行性。
  3. The pouring anchor and shot concrete as used from the middle of 1950 " s, while the technology of anchorage, which was used as foundation support was popular in europe in i960 " s, and this method was used to strengthen the tunnels " ceilings and support mines from 1970 " s in china

    在我國70年代前已開使在加隧洞頂、礦山支護等工程中開始使用, 80年代開始應用於深基坑支護工程,但也主要是與鋼板、灌注、地下連續墻等結合使用,做為支護系統的一種手段取得了良好的效果。
  4. This paper describes the construction technique of offshore anchoring rod rock - socketed piles for dalian beiliang oil product terminal, with the emphasis laid on the construction method of offshore construction platform, cleaning up inside piles, rock - socketed anchoring rod, and anchoring bolt, as well as means for dealing with special situations during construction

    摘要介紹大連北良石化成品油裝卸碼頭海上描桿嵌巖施工技術,著重介紹海上施工平臺、內清理、嵌巖桿、硅的施工方法及施工中特殊情況的處理。
  5. Study on reinforcement of micro - pile and rockbolt for an unstable high - steep road cut slope

    失穩高陡路塹邊坡方案分析
  6. Calculating method of landslides drive force, and determination of the diameters of borehole and anchor cable, the number of the anchor cables, the anchorage length and types of the anchor head as well are also discussed

    本文還探討了作用在抗滑上的滑坡推力設計值的計算方法,以及索材料的選定、深度計算、頭類型選擇、索與的連接設計、施工工藝與質量控制措施、檢測與監測等等。
  7. According to the special stratum condition 、 soil parameter 、 pile frame system in the protecting landslide of hongtian jianfeng in yongan city in fujian province, compile a fem program of plane strain and analyze the interaction by nonlinear fem on intensity discount. in the program, duncan - chang model is applied to earth, elasticity model is applied to pile and rock ; goodman element is set between pile and rock - earth and applied to simulate sliding plane and flexible floor ; sequential pole elements with original stress are applied to anchor cable

    在程序中土體採用了duncan - chang雙曲線本構模型,層以下的巖體採用了線彈性本構模型,並且在和巖土體間設置了無厚度的古德曼( goodman )單元,對于軟弱夾層和已知的滑裂面也採用古德曼單元模擬,索採用的是具有初始應力的連續桿單元模擬。
  8. Application of the combined pile - anchor supporting in reinforcement of high sandy gravel slope

    聯合支護在砂礫石高邊坡加中的應用
  9. Works are accomplished as follows in this paper : firstly, according to the real condition of the fourth pier, through analysis of several generally - used anti - slipping schemes, new method has been put forward to substitute anchored column pile with the foundation of drilled shafts so as to prevent cofferdam from slipping

    為此本文主要做了以下工作:首先根據4 #墩基礎的具體條件,通過對現有常用的幾種抗滑方案的綜合比較分析,提出了以工程本身的鉆孔基礎代替防止鋼圍堰滑移的方案。
  10. The results demonstrate that the method mentioned in this paper is correct, reliable and rational. on the basis of the conclusions, the reinforcing structure ' s internal forces of 2 landslide body of hongjiadu hydraulic power plant are analyzed with this method and the service behavior of the joint structures of anchor caverns and piles in the 2 # landslide body is studied. at the same time, the

    在此基礎上,文中用該方法對洪家渡水電站2 #塌滑體的加結構進行了內力分析,研究了洞聯合結構在洪家渡水電站2 #塌滑體加中的工作性態,計算了每個抗滑承受的下滑力,為實際工程加設計提供了合理、可靠的依據。
  11. The authors suggested porous plate at the pit bottom, together with slope anchorage net and steel pipe piles to strengthen the foundation

    本文提出了採用粉噴多孔板暗撐加抗隆起技術,與邊坡噴網、鋼管聯合支護結構相結合。
  12. In this paper the friction piles are used in zipingpu multi - purpose dam construction project, the spillway in the side slope is covered with overburden, the horizontal area is from sp. 0 + 200m to sp. 0 + 280m, the elevation is about from el. 810m to el. 950m, there is hard and integral rock under the overburden, which provides enough anchor ability, and it ' s requirement to set the friction pile at the appropriate place ; in order to improve the slope stability that suitable excavation or weeding off the disadvantage load on the landslide are good measures, for the scarp it ' s better to reduce the slope

    摘要紫坪鋪水利樞紐工程溢洪道號0 + 200 ~ 0 + 280 、高程810 ~ 950m范圍的內側邊坡為覆蓋層邊坡,坡體下部有較為完整堅硬的巖石,具備提供足夠力的條件,在適當的位置可以考慮設置抗滑,再通過適量的開挖提高邊坡穩定性,或將滑坡體上部不利於穩定的荷載挖除,對于陡坡的坡面可以將坡削緩,則效果會更好。
  13. Sheet pile anchorage

  14. Through these studies and analysis, following conclusions could be drawn : ( 1 ) it is necessary to study on harness engineering of landslide and dangerous rock since the main representations of this geological hazard are landslide and dangerous rock through geological investigation ; ( 2 ) it can be concluded though stability analysis that the dingzhuang landslide is stable naturally, which is identical to the in - situ investigation ; ( 3 ) through stability analysis, the landslide would slide if the water level dropped down from 175. 10m to 156. 0m and it rained successively after the three gorges reservoir work. ( 4 ) according to the results of calculation and the characteristic of the landslide, it is suggested that such measures as unloading at upper part, anchorage and pile supporting system and drainage system should be used on the landslide. ( 5 ) according to geological investigation, there are three kinds of dangerous rock in the engineering, those are failing - down rock, collapsing rock and sliding rock

    因此有必要對滑坡進行治理; ( 4 )根據滑坡推力計算結果和本滑坡屬牽引式滑坡的特點,滑坡體上部相對較穩定,中下部處于基本穩定或不穩定狀態,因此建議此滑坡治理採用上部削坡減載與拉抗滑、擋墻進行支擋結合的處理方法,同時結合截排水等措施進行綜合治理; ( 5 )根據地勘資料,通過對危巖體的形態、規模、基座和底界層及分佈特點和分析,將本工程危巖體失穩崩塌的方式歸納為墜落式、傾倒式和滑塌式三種類型並分別提出相應的穩定性計算方法; ( 6 )分別對本工程中的危巖體進行了穩定性計算,並且發現其都處于不穩定狀態,因此根據實際情況分別提出相應襯砌支撐和清理等加治理措施,最後還對加后的危巖體進行了校核計算,滿足要求。
  15. Application of anchoring pole static pressing pile in treatment of engineering pile with defect

    桿靜壓對處理工程有缺陷時加的應用
  16. Anchor jacked pile is a new technique researched by ourselves for building reinforce and has some strongpoint others have not. twenty years " popularization makes this technique widely used. now anchor jacked pile can be applied in some other project such as correction, ground strengthening, pile foundation ' s top - down construction in newly built building

    桿靜壓作為我國自行研製的一種地基托換加新技術,有著其它施工方法所不具有的自身的優點,經過二十年的推廣使用,目前在很多地區已經廣泛使用,而且其適用范圍也從以前的單一的托換加作用發展成可用於糾偏、補強加、新建工程逆作法基施工等工程。
  17. Based on the content of each important stage of the optimum design on anti - slide pile, this paper discusses several key problems for optimum design on anti - slide pile, such as the choice of intensity parameter of the sliding zone, confirming the pile position, pushing force design, the pile interval and the anchoring depth, and then presents some methods for solution

    依據抗滑優化設計工作中各重要環節的工作內容,對滑帶土強度參數的選擇,抗滑位置和設計推力、抗滑問距、段長度的確定等影響抗滑優化設計的關鍵技術問題進行了討論,提出解決這些問題的方法。
  18. Furthermore, the pressure of soil can be exerted on anchor boards, so the stressed anchor can balance the pressure of soi1 through the anchoring. before the trench displaces, the anchoring pressure begins to work through the exertion of pre - stress. meanwhile, the stress pressure of anchor changes and is adjusted through shot concrete and its stressed steel. so the whole supporting system, which is similar with the pile - anchor supporting system, is finally formed, and it can limit the displacement of trenches

    桿的力在基坑出現位移前,通過雨應力的施加即得以發揮作用,桿的受應生變化並通過噴射硅及其中的受力筋得以調整,從而形成一個與結構近似的整體支護系統,起到限制基坑位移的作用。
  19. As to antislide pile design, confirm anchor anchorage depth is very important, it is not only the key element to decide which one should adopt in rigidity or elasticity pile but also the necessary factor to solve the pile body shear -

    對抗滑設計而言,確定深度至關重要,它不僅是決定採用剛性或彈性的先決要素,而且也是求解身各處剪力、彎矩以及應力的必不可少的條件。
  20. An analytical solution of internal force and deformation for anchorage length of abti - slide pile in layered rock mass

    成層巖體中抗滑段內力變形計算解析解
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