梁板樓面 的英文怎麼說
中文拼音 [liángbǎnlóumiàn]
梁板樓面
英文
slab and girder floor- 梁 : 名詞1 (屋架中架在柱子上的長木) beam 2 (通常也指檁) purlin 3 (橋) bridge4 (物體中間條狀隆起...
- 板 : Ⅰ名詞1 (片狀硬物體) board; plank; plate 2 (專指店鋪的門板) shutter 3 [音樂] (打拍子的樂器) ...
- 樓 : 1 (樓房) a storied building 2 (樓房的一層) floor; storey 3 (房屋或其他建築物上加蓋的一層房子...
- 面 : Ⅰ名詞1 (頭的前部; 臉) face 2 (物體的表面) surface; top 3 (外露的一層或正面) outside; the ri...
- 樓面 : [建築] floor樓面板 floorboard; floor plate; 樓面面積 floor area; 樓面系統 floor system
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Elastic theory and plastic theory are adopted in the analysis of the two section composite beam. elastic theory suggests, on the condition of the same steel beam section size, the composite beam for the floorslab is suited lower flanges convertion section stiffness cuts down by 75. 1 %, elastic limit bending resistant capability cuts down by 47. 9 %, than the composite beam for the floorslab is suited on the top flange. it s conversion section stiffness is lifted 8. 0 %, elastic limit bending resistant capability is lifted 0. 20 %, than the steel beam
彈性理論分析的結果表明,在鋼梁截面大小相同的條件下,樓板位於鋼梁下翼緣的組合梁和樓板位於鋼樑上翼緣的組合梁相比,其換算截面剛度降低75 . 1 ,梁的彈性極限抗彎承載力降低47 . 9 ,樓板位於鋼梁下翼緣的組合梁和純鋼梁相比,其換算截面剛度提高8 . 0 ,梁的彈性極限抗彎承載力提高0 . 2 。In order to study how the floor stiffnesses influence on the mega steel - frame structures, the results of mode 1 and mode 4 of example 1, and those of mode 2 and mode 3 of three examples are compared. some conclusions are obtained as follows : compared with beams and columns of the common steel - frame structures, the cross - sectional dimension of mega beams and mega columns in the main - frames of mega steel - frame structures are very large. because the mega structure system has great lateral stiffness and entirety work behavior, whether or not considering the floor stiffness has less influence on the entirety responses of the mega steel - frame structures and on the displacement and internal forces of columns of the mainframe, but larger influence on the response of columns of hypo - frame
通過對算例1方案1和方案4及算例1 - 3方案2和方案3結構周期、位移和內力反應的比較,研究了樓板剛度對巨型鋼框架結構反應的影響,得到如下結論:與普通鋼框架的梁、柱相比,巨型鋼框架中主框架的巨型梁、巨型柱截面尺寸要大得多,並且由它們組成的這種超常規的大型結構具有巨大的抗側剛度和整體工作性能,因此,在地震作用下,考慮樓板剛度與否對巨型鋼框架結構整體反應影響不大,對主框架柱位移和內力反應影響也不大,但對次框架位移和內力反應的影響相對較大。The weight of the contents is transmitted by means of the floors to the beams.
樓面荷載通過樓板傳遞給梁。Plastic theory suggests, the composite beam for the floorslab is suited lower flange, it s plastic limit moment cuts down by 52. 4 % than the composite beam for the floorslab is suited on the top flange. it s plastic limit moment lifts 8. 8 % than the steel beam, which is on the same condition
塑性理論分析的結果表明,樓板位於鋼梁下翼緣形式的組合梁和樓板位於鋼樑上翼緣形式的組合梁截面相比較,其塑性極限彎矩降低52 . 4 ,和同等條件下純鋼梁截面相比較,樓板位於鋼梁下翼緣的組合梁塑性極限彎矩提高8 . 8 。Somehow the shape is associate with a praying gesture, or a ships bottom turning upward. the components of a building, pillars, beams, and the roof are totally replaced by four shells. though it is the result of advanced architecture idea and technological entrepreneur, the surface bricks are traditional
教堂兼具傳統與創新,簡潔的造型,卻給人許多聯想,像雙掌閉合默禱,又像船底倒置,薄殼結構的造型取代了建築的柱子、橫梁、樓板和墻面,是理念的突破,技術上的挑戰,而外貼的燒釉面磚,卻具有傳統中國風味。Thereinto, the transfer beam and transfer truss are used, while for the high - rise building with complex figure, only the transfer slab can be used. because there are few studys on transfer thick slab at present, this paper will discuss the problem
使用較多的是梁式和桁架式轉換層,而對于上下柱網軸線錯開的體型復雜的商住樓,則只能採用厚板結構轉換層,由於這方面的理論研究還不多,本文就此展開討論。Is a professional production of highways, railways, bridges, municipal use protective use nets, gelizha ; buildings, bridges, roads, dams, electricity, etc. used in the construction of a large network of films and music board shu network, the supermarket shelves, revolving boxes, bakery network, a large range of products such as pet cage manufacturers
是一家專業生產公路、鐵路、橋梁、市政用的防護用網、隔離柵;樓房、橋梁、路面、堤壩、電力等用的大型網片及建築用舒樂板網、超市貨架、周轉箱、烘烤網、寵物籠等系列產品的大型生產廠家。This paper researches the plane stiffness of new composite structure for slab on the lower flange, which is compared with the traditional structure for the slab on the top flange
本文研究了將樓板置於鋼梁下翼緣的新型組合結構平面剛度,並和傳統的將樓板置於鋼樑上翼緣的結構形式的平面剛度和極限承載力作了比較。Firstly, the paper sums up program foundation of the auto design system for the structure of prestressed composite slab, in which object - oriented programming and multi - language programming are discussed emphatically. secondly, the paper illustrates program design of the auto design system in preprocess section, analyses calculation section and postprocess section respectively, in which the function design of the intellectualized collocation, the continuous beam model, the check of the precast slab, auto generation of the calculations and shop drawings is described weightily. finally, the practical design methods and process of the structure system of prestressed composite slab are expatiated by representative example
在綜述了預應力樓蓋體系以及計算機輔助設計的相關內容,分析了國內外研究現狀,研究了疊合樓蓋的受力機理、抗彎抗剪性能以及經濟指標后,文中首先概括了預應力疊合樓蓋體系自動設計系統的編程基礎,其中重點討論了面向對象程序設計和混合語言編程技術;然後分前期處理、分析計算、後期處理三部分,詳細說明了預應力疊合樓蓋體系自動設計系統的程序設計,其中突出描述了程序所特有的智能布置、連續梁模型、預制板校核、生成計算書及施工圖等功能的設計;最後用實例講述了預應力疊合樓蓋體系的實際設計方法及步驟。( 6 ) the validity of control methods of crack has been verified by using engineering instances. on the basis of the researches mentioned above, some crucial conclusions are acquired as follows : ( 1 ) during construction, the cracks in beams and girders were caused by the drop of temperature and by the difference in the inside and outside temperature. the crack in slab was caused by shrinkage due to the loss of water
通過上述研究工作得出了一些重要的成果: ( 1 )在施工階段,大面積現澆樓蓋結構主次梁的裂縫由溫度降幅和內外溫差引起,板的裂縫主要由失水收縮引起; ( 2 )在施工期,由水化熱引起的應力主要分佈在主次梁中,板中應力較小。Beams and slabs on external elevations and in common parts
外墻表面及公用地方的橫梁及樓板分享友人