混凝土配合比 的英文怎麼說

中文拼音 [húnníngpèi]
混凝土配合比 英文
concrete composition
  • : 混形容詞1. (渾濁) muddy; turbid2. (糊塗; 不明事理) foolish; stupid
  • : 動詞1. (凝結) congeal; curdle; coagulate 2. (注意力集中) fix
  • : Ⅰ動詞1 (兩性結合) join in marriage 2 (使動物交配) mate (animals) 3 (按適當的標準或比例加以...
  • : 合量詞(容量單位) ge, a unit of dry measure for grain (=1 decilitre)
  • : Ⅰ動詞1 (比較; 較量高下、 長短、距離、好壞等) compare; compete; contrast; match; emulate 2 (比...
  • 混凝土 : concrete; beton; jetereting混凝土壩 concrete dam; 混凝土板 concrete slab; 混凝土標號 concrete gra...
  • 配合 : suitable; fit; matching; rhythm; go together
  1. The proportion design of butonite mastic asphalt modified asphalt concrete

    布敦巖瀝青改性瀝青混凝土配合比設計
  2. Finally, the mixture ratio design of recycled concrete and some numeration mixture ratios of different strengths are suggested for practical application

    最後,提出再生混凝土配合比設計並建議了幾種設計強度的再生計算,為實際工程應用作參考。
  3. The optimization of mixing design and steam - curing technology for tbm precast segments

    預制管片混凝土配合比設計與蒸養工藝優化
  4. Moreover, the main components of h mineral admixture is procured from industry waste, and its " production procedure is simple, so its " production cost is very low. the most tightness pile up theory and rheology is successfully applied in the designation of self - compacting concrete, and the factors such as sand rate, aggregate grading, paste content and mineral admixtures are been studied. under the guidance of mix design theory and on the basis of mass experiments, c20 - c80 high performance self - compacting concrete is been produced

    將最緊密堆積原理和流變學原理相結,運用於免振搗混凝土配合比設計之中,系統地研究了砂率、集料級、水泥漿量、礦物摻料等因素對免振搗物理力學性能、工作性能、耐久性能的影響,成功製出從c20 - c80及以上強度等級的高性能免振搗
  5. The proportion design of modified asphalt concrete

    北美巖瀝青改性瀝青混凝土配合比設計
  6. Many of concrete products mainly are mixed with breeze, some of them are mixed with fly ash also, which make concrete elements ninth complex and require higher demands for ratio design of concrete mixture

    摘要目前的商品多以摻加礦粉為主,有的還摻加粉煤達,致使成分復雜,因而對混凝土配合比設計提出了更高的要求。
  7. Reduction crack in the pumping transfer concrete during the megathermal climateit is a diffcult problem. the unit undertaking project of no : 4 pump station for diverting water from the south to the north make a beneficial explore form the design of mix proportionging, control and the concret placing temperature to control the crack extension those experience can be referenced by the unit in charge of large scale pumping station project

    摘要高溫季節泵送裂縫控制的當前工程界一個難題,南水北調淮安四站工程建設中,建設單位科學安排、精心施工,從控制混凝土配合比、入倉溫度等多方面著手,對裂縫控制技術進行了有益的探索,並取得了預期的效果,為抗裂技術積累了經驗,對同類型泵站的施工具有重要的參考意義。
  8. Fabrication of the box beam is divided into such parts as reinforcement, formwork, concreting, prestressing, moving and storing of beam, pipe grouting under pressure, end sealing of the beam, water - proof layer on the bridge surface system, protective coating etc. the paper makes description of effective box beam construction technology and workmanship which can be adopted in other projects, such technologies as : manufacturing and fixing of reinforcement, steel reinforcement fixing baseplate, web plate and top plate respectively and lifting the steel skeleton into form, requirements of design and manufacturing and way of utilization for dismantling - erection type formwork and hydraulic formwork, optimization of concrete ratio, concrete pouring process of two ends of beam in priority over the middle, in sequence of first baseplate followed by web plate and top plate at last, concrete pouring in inclined section and in horizontal layer, concrete vibration mainly by external vibrator in assistance with internal vibrator, methods and regulation for steam curing of concrete, dual controls over stress and strain to ensure quality of prestressing workmanship, construction method of effective beam moving by heavy - weight special moving facility, some regulations and key notes about construction of grouting under pressure, beam ends sealing, water - proof layer on the bridge surface system, protective coating

    箱梁製造由鋼筋工程、模板工程、工程、預應力工程、移存梁工程、孔道壓漿工程、梁體封端工程、橋面防水層和保護層工程等施工環節組成。文中介紹的採用胎具製作和綁扎鋼筋,分底腹板和頂板分別綁扎並吊裝鋼筋骨架入模;拆裝式和液壓式兩種模板的設計、製作要求和使用方法;綜考慮、優化混凝土配合比灌注從兩端至中間、先底板、后腹板、再頂板的施工順序和斜向分段、腹板水平分層、附著式振搗為主、插入式搗固為輔的施工工藝,蒸汽養護的方法和規定;應力應變雙控制確保預應力施工質量的施工技術;採用重物移運器有效移梁的施工方法;壓漿、封端、橋面防水層和保護層施工的一些規定和注意事項等都是對箱梁製造行之有效的施工技術和施工方法,並可為以後類似施工作借鑒。
  9. A consideration of automatization on asphalt concrete proportional ratio design

    瀝青混凝土配合比設計自動化思路
  10. Study on proportioning design of high performance concrete

    高性能混凝土配合比設計
  11. Optimization of mix proportion design for high strength and high performance concrete using bolomey curve

    應用保羅米曲線優化設計高強高性能混凝土配合比的嘗試
  12. Practices show that the compressive strength, the modulus of elasticity, the permeability coefficient and the compactness of concrete obtained respectively by the compaction method, the unconfined compression static compaction method, the sand trenching and filling method, and nuclear densimeters meet the requirement of design, and the mixing proportion of concrete of the side - wall is reasonable

    實踐證明施工中用擊實法、無側限抗壓靜力壓實法、挖坑灌砂法及核子密度儀分別檢測出的邊墻抗壓強度、彈性模量、滲透系數和密實度值均滿足設計要求,邊墻混凝土配合比理。
  13. On the concrete mix proportion design of the prestressed girder of shatang bridge

    沙塘特大橋預應力梁混凝土配合比設計
  14. The research of high performance pavement concrete ( hppc ) is done in two sides. one is mixture design, the other is pavement performance. the mixture design and design flowchart of hppc is given on the base of nc with the consideration of characteristic of both hppc and nc. the grow law, influencing factor and formation mechanism of hppc strength is analisised by perpendicular experiment. in the same, the fatigue equations are set up for hppc and hppc i on the base of fatigue experiment. the fatigue mechanism of hppc is analysised by damage mechanics and fracture mechanics. brittleness, frost resistance and abrasion resistance of hppc is researched with the camparition to nc i. at last, the economic analysis of hppc is done by two kinds of way

    高性能與普通路面的特點,提出了建立在普通路面基礎上的高性能路面混凝土配合比設計方法,給出了設計流程;通過正交試驗(強度試驗) ,分析了高性能路面的強度發展規律、影響因素與形成機理;同時,根據疲勞試驗結果採用雙參數weibull分佈模型分別建立了高性能路面和高性能路面(沒有摻加硅粉)疲勞方程,應用損傷力學和斷裂力學,分析了高性能路面的疲勞機理;並採用了對分析方法,研究了高性能路面的脆性、抗凍性和耐磨性等。
  15. Water cement ratio and mixing fly ash or slag into concrete effect on ability of resisting chloride penetrating that are considered in the model. the effect of environment that include temperature, relative humidity and cumulating of surface chloride concentration of concrete are also considered. moreover, chloride diffusion changing with time is included in this model as well as

    模型中考慮水灰混凝土配合比(摻入不同量的粉煤灰和礦渣)變化對抵抗氯離子侵蝕能力的影響,同時考慮溫度、相對濕度和表面氯離子濃度累積變化等環境因素對氯離子侵入過程的影響,以及氯離子擴散系數隨時間的變化。
  16. Optimization of mix parameters of high - strength self - compacting concrete

    自密實混凝土配合比優化研究
  17. The analysis results demonstrated that its efficiency in factors analysis of multi - factors, multi - levels and few testing time mix proportion uniform - design experiment of flexible concrete

    分析結果表明改進的灰色關聯度在多因素、多水平數、試驗次數偏少的柔性混凝土配合比均勻試驗的數據分析中是很有效的。
  18. Specification for mix proportion design of ordinary concrete

    普通混凝土配合比設計規程
  19. The next this text is based on the appearance theories, according to the characteristics that the temperature dispersion of super thick mass concrete planceer of high - rise building primarily is an even difference in temperature and an even constringency, suppose the level shears are line with the displacement, adopting a big physical volume concrete of planceer in flexibility foundation for plank computing model, from theoretically deducing the difference in temperature of mass concrete contracting should basic formula of dint, and analysis the crack rule and the influence factor of mass concrete temperature contract, and bringing up the theory calculation method about temperature stress of mass concrete and the biggest whole method that sprinkle the length, at the same time according to basic formula of the temperature stress of mass concrete and the concrete construction experience, bringing five technique measures to prevent the temperature crack of mass concrete

    其次本文以唯象理論為基礎,根據高層建築超厚底板大體積承受的溫差主要是均勻溫差和均勻收縮的特點,闡述了大體積溫度應力理論計算的簡化方法和最大整澆長度的計算方法,同時根據大體積溫度收縮應力基本公式和大體積結構施工經驗,提出了防止大體積溫度裂縫的五項技術措施。最後本文以廈門郵電大廈3 . 5m超厚底板施工為實例,從大體積溫度應力計算、保溫材料厚度計算、混凝土配合比的確定,鋼筋工程、模板工程、的泵送和澆築以及大體積內部溫度的監測和後期養護等方面進行了理論應用。
  20. Design of facing concrete mix proportion in hangpeng hydropower station

    漢坪咀水電站面板混凝土配合比設計
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