延性系數 的英文怎麼說

中文拼音 [yánxìngshǔ]
延性系數 英文
ductility factor
  • : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
  • : 系動詞(打結; 扣) tie; fasten; do up; button up
  • : 數副詞(屢次) frequently; repeatedly
  • 系數 : [數學] coefficient; ratio; modulus; quotient; factor
  1. It is necessary to elaborate on the definition of a fatigue coefficient such as that for ductility.

    有必要對疲勞,如延性系數的定義作詳細討論。
  2. Its hysteretic curve is plumper, its ductility coefficient and energy dissipation capacity have been improved remarkably. the inclined staff of the steel bar truss has a restraining faction to the development of the crack, and the phenomena is that there has more crak and larger distributing area on the shear wall, which is an important token of the improved seismic capacity. concealed steel bar truss has the faction of increasing the height of plastic hinge area, which is another important token of

    研究結果表明:內藏鋼桁架高剪力墻與普通高剪力墻相比:屈服荷載和極限荷載均比顯著提高;屈服剛度明顯提高;其滯回環相對飽滿,延性系數及耗能能力顯著提高;內藏鋼桁架高剪力墻,其鋼桁架斜桿對裂縫發展有控製作用,現象是墻體上的裂縫較多、分佈域較廣,這是抗震耗能能力增強的重要表徵;內藏鋼桁架高剪力墻有增大底部塑耗能區域的作用,這是抗震耗能能力增強的另一重要表徵;內藏鋼桁架還有顯著提高抵抗剪力墻基地剪切滑移能力的作用。
  3. The properties of cavity sandwith panel infill steel frame, such as hysteresis characteristics, stiffness, ducfility, failure models and characteristic of dissipation of energgy were gained in the test and compared with ordinary steel frame. the properties of cavity sandwith panel infill is abtained as well. 2

    通過試驗得出了空腔砌塊復合墻體鋼框架在低周往復荷載作用下的p -滯回能、剛度關延性系數、破壞形式及耗能能等特,並與相同尺寸的一榀純框架的相關特作了對比分析。
  4. The probability distribution function and the characteristic values of the curvature ductility factor are obtained

    近似得出曲率延性系數的概率分佈函和特徵值。
  5. The probability nature of curvature ductility factor of rectangular reinforced concrete columns with rectangular hoops was analyzed

    分析了受矩形箍筋約束的矩形截面柱曲率延性系數的概率特
  6. Then, this paper edits other computer program to calculate thirty sgrc frame columns, and researches the drift capacity of sgrc frame column, and analysis the turning capacity of frame column " s plastic hinge. then the relational expression of the curvature ductility factor and ratio of hoops of sgrc frame columns is derived. this paper analysis the relation of the curvature ductility factor and the relative drift of sgrc frame columns, and discuss the question of the minimum values of ratios of hoops of sgrc frame column at different axial load ratios

    一11一太原理工大學碩_ i :學位論文使用本文程序另外模擬計算了30榻煤研石混凝土框架,進一步分析了軸壓比和配箍率對煤研石混凝土框架柱曲率的影響,編寫程序計算了30根煤研石混凝土框架柱,對煤研石混凝土框架柱的側向變形能力進行了研究,分析了柱塑鉸的轉動能力,導出了煤研石混凝土框架柱的曲率延性系數與配箍率的關式,分析了煤研石混凝土框架柱的曲率延性系數與框架柱相對側向位移的關,討論了煤研石混凝土框架柱在不同軸壓比下最小配箍率的取值問題。
  7. When the axial compression ratio increases more than 0. 42, the variation of the displacement ductility ratios is small ; when the stirrup ratio per unit volume increases more than 1. 9 %, the displacement ductility increases slowly ; with increasing the shear span ratio a, the displacement ductility increases for, < 1. 5, decreases for > 1. 5

    當軸壓力增加到0 . 42以後,位移的變化較小;體積配箍率增加到1 . 9 %后,位移的增長減緩;當剪跨比小於1 . 5時,型鋼混凝土柱的延性系數隨剪跨比的增加而提高;但當剪跨比大於1 . 5時,隨著剪跨比的增加,型鋼混凝土柱位移延性系數有所降低。
  8. Based on the fiber element method, parametric analysis was performed on the behaviors of moment - curvature and lateral load - lateral displacement relationships for the composite beam - columns. the selected parameters were the axial load level, slenderness ratio, steel ratio, strength of the materials, etc. finally, simplified models for the moment - curvature and the lateral load - lateral displacement hysteretic relationships, as well as simplified formula for calculating ductility coefficient were suggested

    用纖維模型法統地分析了軸壓比、長細比、截面含鋼率、鋼材和混凝土強度等參對m -和p -滯回曲線骨架線的影響規律,提出了壓彎構件m - 、 p -滯回關模型及延性系數的確定方法。
  9. Fatigue strength coefficient decreases linearly during the cyclic course ; fatigue strength exponent increases ; fatigue ductility coefficient first goes up till the maximum value at 50 % total life, and then goes down ; fatigue ductility exponent decreases during the first half cycle till its minimum value at 50 % total life and then increases in the rest cycle course ; cycle strength coefficient and cycle strain hardening exponent both decrease during the total cycle course

    結果表明: 6個基本疲勞特在循環過程中都呈顯出規律變化。疲勞強度呈線減小趨勢;疲勞強度指呈線增大特徵;疲勞延性系數是一個先增后降的過程;而疲勞隨循環進行由初始減小到逐漸增大;循環強度和循環應變硬化指在整個循環過程中都趨于減小。
  10. Through the experiments and analysis, it can be concluded that confined shale brick masonry wall has good deformation property and high lateral - resisting bearing capacity, its ductility is close to confined clay brick masonry wall ' s, and its lateral - resisting bearing capacity is higher than confined clay brick masonry wall ' s

    試驗表明約束頁巖磚砌體墻具有良好的變形能和較高的抗震受剪承載力,其延性系數接近約束粘土磚砌體墻延性系數,其抗震受剪承載力計算式可採用與約束粘土磚砌體墻相同的公式。
  11. In the test, two frames with the same size which is one - half of the reality frame ' s size and the same reinforcement were designed and made firstly. one frame is made of schsc named sf ; the other is made of nhsc named nf. secondly, the mts loading system was used to put the two frames under low - cyclic loading

    實驗結果表明:自密實混凝土框架正向屈服荷載、極限荷載和破壞荷載均較普通混凝土的大而其相應的位移卻相當;兩榀框架的破壞形式都是彎曲破壞,且兩者荷載-位移的滯回曲線與骨架曲線非常相似;自密實混凝土框架的延性系數略高於普通混凝土框架,兩者的耗能能力基本相當。
  12. It was known from the analysis of ductility coefficient that all specimens of overlapped joints other than sj3 one possessed a better ductility and lower deformation rate of the joints under repeated action of loads compared to that under monotonic loading

    延性系數分析可知除sj3的延性系數較低外其餘搭接節點試件具有較好的;承受反復荷載作用時與單調加載時相比節點變形率低。
  13. On the other hand, they have been put into use in practical engineering in large scale. in this paper, beam - column joints strengthened with cfs have been study systematically. based on the experiments of five full - scale beam - column joints ( two non - seismic joints, one seismic joints and two non - seismic joints strengthened with cfs ) subjected to lateral cyclic load, the failure mode, ultimate capacity, hysteretic behavior, ductility factor etc. are compared and analyzed

    試驗中對5個足尺樑柱中節點試件( 2個非加固試件、 1個抗震試件、 2個加固試件)施加了低周反復荷載的試驗,分析比較了非抗震節點、抗震節點和cfs加固節點在滯回曲線、屈服荷載、極限荷載、延性系數、耗能等抗震能上的差異。
  14. 3. the performance of staggered joints is similar to ordinary joints ', not only about the plump of hysteresis curves, energy dissipation, but also the time, the rapidity of shear resistance decrease and the degree of joints stiffness degradation. only the displacement ductility coefficient in staggered joints is little smaller than in ordinary joints

    錯層節點的抗震能比普通節點的抗震能基本差不多,不管是從梁端滯回曲線的飽滿程度、耗能,還是從節點承載力降低的早晚、快慢、節點剛度退化的程度上來說,都是這樣,唯有錯層節點的位移延性系數,要比普通節點的稍差一些。
  15. Study on seismic displacement ductility factor of reinforced concrete frame structure

    鋼筋混凝土框架抗震位移延性系數研究
  16. Compared with non - strengthened ones, joints strengthened with cfs have a few increases on the ultimate capacity and a great deal of increase on the ductility factor

    同時試驗結果還表明cfs加固節點顯著地提高了節點的延性系數、耗能,改善了節點的抗震能,具有較大的實用和推廣價值。
  17. The contents include as follows : the influencing factors of the displacement ductility factor of the unbonded partially prestressed concrete frame structures, such as stirrup reinforcement characteristic value, nominal shear span ratio, axial compression ratio, the appearing order of plastic hinges and partial prestressing ralio ( ppr ) are discussed. the formula of displacement ductility factor of the unbonded partially prestressed concrete frame structures is suggested by regression analysis. with regard to the aseismic design and the request of ductility and energy dissipation, the restriction of the flat - beam / column sectional size and aseismic reinforced design are discussed

    本文主要包括以下內容:討論了配箍特徵值、名義剪跨比、軸壓比、塑鉸出現順序、預應力度等因素對無粘結部分預應力混凝土框架位移延性系數的影響,回歸了考慮影響因素的位移延性系數計算公式;對無粘結部分預應力混凝土扁梁框架結構,闡述了抗震設計對扁梁、柱截面尺寸的要求與限制;對滿足和耗能要求的無粘結部分預應力混凝土扁梁控制截面抗震配筋進行了探討;通過對無粘結部分預應力混凝土扁梁梁端的受力分析,改進了以往扁梁梁端扭矩設計值計算公式。
  18. In order to study the main effected factors of the aseismic performance of concrete dampers, experiment of dampers in forms of concrete ductile columns was conducted subjected to low cyclic loading, the damage pattern, hysteresis behavior, ductility factor and equivalent viscous damper factor of the dampers were obtained

    摘要為考察混凝土柱耗能器抗震能的主要影響因素,通過對多根柱耗能器的低周反復荷載試驗,得到其破壞形態、滯回特延性系數、等效黏滯阻尼等參
  19. 3. its hysteretic curve is plumper, its ductility coefficient and energy dissipation

    3 .滯回環相對飽滿,延性系數及耗能能力顯著提高。
  20. Details behavior as bellows : ( 1 ) the damping force of the damper with concrete ductility column is higher, and the final damping force smoothly decreases. ( 2 ) the ductility ratio of the damper with concrete ductility column is larger, so it has good ductility and its most level displacement is 1 / 14 ~ 1 / 8 of the column height. ( 3 ) the hysteretic curve of the damper with concrete ductility column is plumper

    具體能如下: ( 1 )混凝土柱耗能器的阻尼力比較高,後期阻尼力下降比較平緩; ( 2 )混凝土柱耗能器的位移延性系數較大,具有較好的,最大水平位移達到柱高的1 / 14 1 / 8 ; ( 3 )混凝土柱耗能器的滯回曲線飽滿; ( 4 )混凝土柱耗能器中柱屈服后等效粘滯阻尼迅速增大,消耗地震能量的能力增大; ( 5 )混凝土柱耗能器中每根柱的破壞形態基本一致,表現了良好的共同工作能。
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