member in compression 中文意思是什麼

member in compression 解釋
受壓構件
  • member : n 1 (團體的)一分子,成員;會員;社員;議員;委員。2 政黨支部。3 手足,肢體;身體各部,(人及動...
  • in : adv 1 朝里,向內,在內。 A coat with a furry side in有皮裡子的外衣。 Come in please 請進來。 The ...
  • compression : n. 1. 壓縮;壓緊;濃縮,緊縮。2. 加壓;壓抑。3. (表現的)簡練。4. 應壓試驗。
  1. Calculation of eccentric compression member with ring section in non - uniform reinforcement

    鋼筋混凝土小偏心受壓構件對稱配筋截面設計
  2. It is determined that with accurate knowledge of the complete stress - strain curve of concrete in compression, steel in tension, and with an iterative computerized non ? linear method, it is possible to predict the entire moment - curvature, moment - flexural rigidity and axial rigidity relation ship of a cross - section of a structure member

    可以確定,只要知道混凝土受壓和鋼筋受拉的完整的應力應變關系,採用選代的非線性計算方法,就有可能預測結構截面彎矩一曲率、彎矩一彎曲剛度和軸向剛度的關系。
  3. Lastly, the minimum permission reliability index is offered by the method of " calibration method " which makes back calculation out of the bending resistance reliability and the compression resistance reliability of the reinforced concrete member in norm

    最後,根據「校準法」反演計算現行設計規范中鋼筋混凝土結構抗彎、抗壓可靠度指標以確定在用橋梁結構體系的最低目標可靠度指標。
  4. In the current criteria, the principal parameters are given from linear elasticity analysis. the effects of cumulation in elasto - plastic working stage is hardly analysis. the stiffness calculation of current eccentric compression member is not specialy stipulated, with the result that the calculation of internal forces are crude

    指出《規范》公式中的主要參數均基於線性(彈性工作階段)分析,對結構實際工作階段(包括彈塑性、塑性工作階段)由於損傷累積而引起結構性能的變化涉及較少,對常見的偏壓構件的剛度計算也未作專門規定,這使得以往內力計算較為粗糙。
  5. Bearing capacity experiment research on reinforced concrete column member in axis compression corroded in seawater

    海水侵蝕下鋼筋混凝土軸心受壓柱承載力試驗研究
  6. The member bearing compression in the truss could be regard as a battened column with the single axis of symmetry

    這種角鋼桁架中的受壓件在結構上是一個單軸對稱綴板柱。
  7. The paper puts great emphasis on studying the mechanical performance and the carrying capacity of concrete - filled steel tubular ( cfst ), verifies the cyclo - hoop effect which steel tubular has exert to the concrete in cfst through the tridimensional finite element analysis of the entity of the arch rib, and proves that the cyclo - hoop effect is utilized to increase the axial compression cfst member carrying capacity

    本文著重研究了鋼管混凝土結構的力學性能及承載能力,通過對拱肋實體所作的三維有限元分析,驗證了鋼管混凝土拱橋中鋼管對混凝土的環箍效應,證明了由於環箍效應的存在,使內填式鋼管混凝土軸壓承載力大大提高。
  8. The working stress of the rc compression member in existing structures can be calculated through measuring strain change before and after drilling the hole, determining the compressive strength and elastic modulus of concrete through the drilled sample and combining the calculating results of the finite element method

    該方法通過測試鉆孔前後孔邊應變的變化,利用鉆取的芯樣推定混凝土的抗壓強度和彈性模量,再結合有限元計算分析,得到已建結構中鋼筋混凝土受壓構件的工作應力。
  9. These results demonstrate that the effect of improving the bearing load of structure is very good by strengthening the member of eccentricity compression under pre - stress. the ultimate bearing capacity of strengthened column is closely related to the eccentricity distance. in the condition of eliminating the lagging strain of angle iron, the magnitude of pre - stress putting on the angle iron has litter impact on the ultimate bearing capacity of structure

    偏心受力構件的有限元計算結果表明:預應力法加固偏心受力構件,其對結構承載力的提高效果顯著;加固柱的最大承載力與柱的偏心距有密切關系;在消除角鋼應變滯后的條件下,對角鋼施加預應力的大小對結構最終承載力無明顯影響。
  10. The assumption about deformation character and constitutional relationship of high strength concrete and reinforcement under elevated temperature is proposed making use of the general regularity of high strength concrete compression - flexure member. the ultimate load capacity and deformation of high strength concrete compression - flexure members under elevated temperature are analyzed by means of full - range and non - linear analysis method. the computing results and test data are in good agreement

    根據高溫時高強混凝土壓彎構件的一般規律,給出了高溫時高強混凝土和鋼筋變形特徵的假設和本構關系,利用全過程非線性分析方法分析了高溫時高強混凝土壓彎構件的極限承載力和變形,計算結果與試驗結果吻合較好。
  11. It is an important factor that influences the whole carrying capacity of member in technical code of cold - formed thin - wall steel structures gb50018 - 2002, the calculation of stability carrying capacity of axially loaded compression members does not consider the influence of the residual stress

    它是影響構件整體穩定承載力的重要因素。我國冷彎薄壁型鋼結構技術規范gb50018 ? 2002在計算軸心受壓構件的穩定承載力時,沒有直接考慮殘余應力的影響。
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