高速铁路技术
高速鐵路技術
고속철로기술
HIGH SPEED RAILWAY TECHNOLOGY
2015年
2期
29-33
,共5页
现浇连续梁%支架结构%受力分析
現澆連續樑%支架結構%受力分析
현요련속량%지가결구%수력분석
cast-in-situ continuous beam%bracket structure%stress analysis
根据沪宁城际高速铁路节点工期总体安排要求,站前V标段跨越旺庄路(40+56+40) m连续梁采用支架现浇法施工。连续梁主跨采用装配式钢梁支架系统现浇施工,荷载主要集中于箱梁腹板对应的A区域,故进行A区域内主钢梁和次钢梁的荷载计算、抗弯强度计算、挠度计算及钢管柱的稳定性计算;连续梁边跨选择满堂碗扣式脚手架作为支架结构,主要从墩柱间脚手架和腹板间脚手架2个方面进行荷载计算、立杆的稳定性计算;从主跨和边跨2个方面表述了整个现浇连续梁支架结构系统对地基的影响,通过计算分析对地基采取了相应的处理措施。文章结合沪宁城际高速铁路的施工实例,阐述了现浇连续梁支架结构的受力分析。
根據滬寧城際高速鐵路節點工期總體安排要求,站前V標段跨越旺莊路(40+56+40) m連續樑採用支架現澆法施工。連續樑主跨採用裝配式鋼樑支架繫統現澆施工,荷載主要集中于箱樑腹闆對應的A區域,故進行A區域內主鋼樑和次鋼樑的荷載計算、抗彎彊度計算、撓度計算及鋼管柱的穩定性計算;連續樑邊跨選擇滿堂碗釦式腳手架作為支架結構,主要從墩柱間腳手架和腹闆間腳手架2箇方麵進行荷載計算、立桿的穩定性計算;從主跨和邊跨2箇方麵錶述瞭整箇現澆連續樑支架結構繫統對地基的影響,通過計算分析對地基採取瞭相應的處理措施。文章結閤滬寧城際高速鐵路的施工實例,闡述瞭現澆連續樑支架結構的受力分析。
근거호저성제고속철로절점공기총체안배요구,참전V표단과월왕장로(40+56+40) m련속량채용지가현요법시공。련속량주과채용장배식강량지가계통현요시공,하재주요집중우상량복판대응적A구역,고진행A구역내주강량화차강량적하재계산、항만강도계산、뇨도계산급강관주적은정성계산;련속량변과선택만당완구식각수가작위지가결구,주요종돈주간각수가화복판간각수가2개방면진행하재계산、립간적은정성계산;종주과화변과2개방면표술료정개현요련속량지가결구계통대지기적영향,통과계산분석대지기채취료상응적처리조시。문장결합호저성제고속철로적시공실례,천술료현요련속량지가결구적수력분석。
According to the overall arrangements for the construction period of Shanghai-Nanjing intercity railway, cast-in-situ bracket method is adopted for 40+56+60 m continuous beam crossing Wangzhuang road in section V in front of the station, fabricated girder bracketry is adopted for the main span of the continuous beam by cast-in-situ method. The load mainly concentrates in the region A corresponding to the box beam web, so the load calculation, bending strength and deflection calculation of the main steel girders and secondary beams within region A and stability calculation of steel pipe columns are performed. Bowl-scaffold is selected as the supporting structure for the side span of continuous beam supported by, the load calculation and stability calculation of the vertical pole are performed based on scaffolds between piers and webs;the impact of cast-in-situ continuous beam support structure system on the foundation is presented from the main span and side span and corresponding measures have been taken to the foundation by computational analysis. Combined with the practical construction of Shanghai-Nanjing intercity high-speed railway, this paper sets forth the stress analysis of bracket structure of cast-in-situ continuous beam.