鋼索扣 的英文怎麼說
中文拼音 [gāngsuǒkòu]
鋼索扣
英文
wire rope grip-
Calculation of the temporary stays in the erection of steel tube arch ribs by suspender method
某鋼管混凝土拱橋拱肋懸索吊裝施工中的扣索計算Specification for locking clips for turnbuckles of control cables - dimensions
操縱鋼索的松緊螺絲扣的鎖緊卡子的規范.尺寸Aerospace series ; locking clips for turnbuckles of control cables ; dimensions
航空航天.操縱鋼索松緊螺絲扣的固定夾子.尺寸The curve of arch rib, rib section bending, splice of rib sections, seperator of tube, bracing plates, bracing system, meeting of arch, concrete pumping, hangers, tie - rods, the tower of the cable crane and the guy ropes, technical specifications of cfst arch bridge are discussed
對鋼管混凝土拱橋的拱軸線選用、鋼管節段彎制、節段拼接、管內分隔倉、綴板設計、聯結繫系統、合龍設計及其細節、管內混凝土的泵送、吊桿、系桿、纜索吊機與扣索塔架、技術規范等12個問題進行了探討。This paper taking zigui longtanghe bridge in hubei province as a project background, studies about the unified construction technology of tower and buckle frame in erection with cableway used in steel pipe - encased concrete arch bridge constructioa based on the analysis of the construction property of long span steel pipe - encased concrete arch bridge, this paper raises the general scheme and basic structure of unified construction, analyzes the mechanical behavior of unified structure of construction statue, mainly discusses the strength, stiflhess and stability of the unified structure
本文以湖北秭歸龍潭河大橋為工程背景,對大跨徑鋼管混凝土拱橋纜索吊裝塔架扣架一體化施工技術進行了研究。論文以大跨徑鋼管混凝土拱橋施工特點分析為基礎,提出了一體化施工的總體方案與基本結構構造,分析了施工狀態一體化結構的力學行為,主要探討了一體化結構的強度、剛度及穩定性,採用動態監控系統確保了一體化結構在橋梁施工過程中的安全可靠性,從而形成一套系統的纜索吊裝施工新技術,並在實橋工程進行了應用,效果良好。In order to assure that the stress and strain state of structure is secure, the author analyses respectively the objective functions of the reasonable finished state and buckle - cable adjusted phase ; thus, the optimized model based on fga is framed. finally according to the example, the computation datum are compared with the iterative forward analysis method and the optimal control theory. the result shows that this method can be used conveniently and meet the construction and design precision
為了滿足大跨度鋼管混凝土拱橋施工的安全性與成橋預期的內力狀態和拱肋線形,本文結合工程實例,分別對合理成橋狀態和扣索索長調整的目標函數的確定進行了分析,將一組多變量、多約束的最小化問題無約束化,從而建立起適合於該問題的遺傳演算法優化模型,將其計算結果分別與迭代前進法和隨機最優控制理論進行了比較;結果表明,採用該方法編制的基於結構計算的遺傳優化程序操作靈活,能很好的滿足施工和設計要求。According to the forward analysis method based on iterative theory, the simulation calculation procedure of rib - hoisting on the long - span cfst arch bridge is worked out. in this procedure, the finite element theory and the formation of flexible cable unit is analyzed detailed
根據基於迭代理論的前進分析方法,本文編制了大跨度鋼管混凝土拱橋拱肋吊裝模擬計算程序,對程序中的有限元理論、扣索單元的處理進行了詳細分析。Abstract : for building a long - span concrete - filled steel - tube ( cfst ) arch bridge with an integrated installation tower, one of the key technologies is to control the arch rib alignment of the bridge. based on the theoretical analysis and the measuring results, the designed arch rib alignment of a being built bridge can be guaranteed quality by adjusting the length of the cables on - line. the engineering application shows, by using the on - line adjusting cable technology, that it is economical and in safety for building a long - span cfst arch bridge
文摘:在大跨度鋼管混凝土拱橋塔架/扣架一體化纜索吊裝施工中,其關鍵技術之一是主拱線形控制.在理論分析和現場測試的基礎上,動態調整扣索長度,可保證鋼管拱肋的設計線形.工程實踐表明:將扣索動態調整技術應用於大跨度鋼管混凝土拱橋的吊裝施工中,可降低工程造價,保證施工質量Taking nanpu bridge ( fst bridge ) in chun - an county as an instance, many problems on construction control technique for cfst bridge are discussed in this paper, including : the analysis method of simulating construction phase, construction monitoring technology, calculation of stayed - buckle - cable forces, allotting deadweight of pumping liquid concrete, analysis on the inflection of shrinkage and creep of core concrete in steel tube, analysis on the error in construction control, sensitivity analysis of parameters and parameter identification
本文以淳安縣南浦大橋為背景,對鋼管混凝土拱橋施工控制中的結構分析方法、施工監測技術、斜拉扣索索力計算、泵注混凝土自重荷載的分配、鋼管核心混凝土收縮徐變分析、施工控制誤差分析、參數敏感性分析及參數估計等問題展開研究。Mechanical analysis of supporting cable of long - span concrete - filled steel tube arch bridge in the process of lifting
大跨度鋼管混凝土拱橋吊裝過程扣索受力分析The optimizing theory is introduced to the calculation of the stayed - buckle - cable forces in the process of segment hosting construction of the steel - pipe arch and adjusting construction error. the calculated optimum cable forces with high precision can always guarantee the inner forces and the structure distortion in safe state and ensure the line shape of the arch according with design objective
同時將優化理論引入到鋼管混凝土拱橋拱肋架設和調整中的扣索索力計算中,使計算出的索力既能確保結構的受力狀態和變形始終處在安全范圍內,又能保證架設和調整后的拱肋線形符合設計期望,而且索力的計算精度較高。Rib - hoisting of the long - span cfst arch bridge is very complex. in order that the finished state of structure meets the design requirement it is necessary to study the method of buckle - cable adjusted and determine reasonable finished state
大跨度鋼管拱橋的拱肋吊裝過程是一個復雜的過程,為了保證最終的成橋狀態滿足設計要求,考慮扣索索長的調整方法,確定出施工各階段的合理狀態是很有必要的。In this paper improved genetic algorithm is combined with computation of buckle - cable adjusted. and the genetic optimization model based on real number encoding is introduced. in the established model, rank - based fitness assignment selection and dynamic penalty strategy are introduced to handling restriction problems
本文針對大跨度鋼管拱橋合理成橋狀態的確定和扣索索長調整問題,將改進的遺傳演算法嵌入到拱肋吊裝的結構計算中,採用實數編碼技術,引入了基於排序的適應度分配選擇方式,將動態罰函數法應用於處理有約束的最優化問題。分享友人