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钢结构课程设计陕西广播电视大学课程设计课程名称:钢结构分校(工作站):专业:指导老师:学号:钢结构课程设计学生姓名:钢结构课程设计目录1、设计资料··········································································································12、结构形式及布置································································································13、荷载计算·········································································································33.1永久荷载设计值·····························································································33.2可变荷载设计值·····························································································33.3荷载组合········································································································34、内力计算········································································································35、截面选择········································································································钢结构课程设计45.1上弦杆截面选择·····························································································45.2下弦杆截面选择·····························································································45.3腹杆截面选择·································································································56、节点设计········································································································96.1下弦节点设计·································································································96.2上弦节点设计·······························································································147、附图········································································································16钢结构课程设计-1-1、设计资料2.1某车间,长240m,跨度27m,柱距6m,车间内无吊车、无天窗、无振动设备。采用梯形钢屋架,1.5×6m预应力钢筋混凝土大型屋面板(1.4kN/m2),二毡三油加绿豆沙防水层(0.4kN/m2),20mm厚水泥砂浆找平层(0.4kN/m2),卷材屋面,屋面坡度i=1/10,屋架简支于钢筋混凝土柱上,混凝土强度等级C20,上柱截面400×400mm。钢材选用Q235B,焊条采用E43型。屋面活荷载标准值0.70kN/m2。2.2屋架计算跨度0270.326.7()lm2.3跨中及端部高度:设计为无檩屋盖方案,采用平坡梯形屋架,端部高度01990hmm中部高度3325hmm(为0/8.0l)。2、结构形式与布置屋架形式及几何尺寸如图所示:图2-1梯形钢屋架形式和几何尺寸图根据厂房长度(240m60m)、跨度及荷载情况,设置五道上、下弦横向水平支撑。因柱网采用封闭结合,厂房两端的横向水平支撑设在第一柱间,该水平支撑的规格与中间柱间支撑的规格有所不同。在所有柱间的上弦平面设置了刚性与柔性系杆,以保证安装时上弦杆的稳定,在各柱间下弦平面的跨中及端部设置了柔性系杆,以传递山墙风荷载。在设置横向水平支撑的柱间,于屋架跨中和两端各设一道垂直支撑。梯形钢屋架支撑布置如图下图所示:钢结构课程设计-2-图2-2屋架上弦支撑布置图图2-2屋架下弦支撑布置图图2-3屋架垂直支撑布置图钢结构课程设计-3-3、荷载计算3.1永久荷载设计值预应力钢筋混凝土大型屋面板:21.21.41.68/kNm二毡三油防水层及找平层(20mm):21.20.41.20.40.96/kNm支撑重量:21.20.070.084/kNm3.2可变荷载设计值屋面活荷载:21.40.70.98/kNm3.3荷载组合永久荷载可变荷载为主要荷载组合,屋架上弦节点荷载为:(1.680.960.084)0.981.5633.336FkN4、内力计算考虑全跨静荷载和半跨活荷载的组合,在单位力作用下各屋架杆件的内力图如下:图4-1单位力作用下各屋架杆件的内力图当F=33.336kN时,各屋架杆件的内力图如下:图4-2F作用下各屋架杆件的内力图钢结构课程设计-4-5、截面选择腹杆最大内力为251.4kN,选用节点板厚度为8tmm。5.1上弦杆截面选择上弦杆采用相同截面,按最大内力计算:max387.4NkN,0150.8xlcm,0300.0ylcm(1l取两块屋面板宽度)。选用两个等肢角钢21008,231.28Acm,3.08,4.41xyicmicm150.850.0=1503.08oxxxli0.866x30068.0=1504.41oyyyli0.780y(b类)双角钢T型截面绕对称轴(y轴)应按弯扭屈曲计算长细比yz00.58100.5830012.517.40.810ylbtb,44222200.4750.47510=168.0173.63000.8yzyyyblt故由max73.6yz,按b类查表得0.729y截面验算:3222387.410169.89/215/0.72931.2810NNmmfNmmA大型屋面板与上弦焊牢,起纵横向水平支撑作用,上弦杆其他节间的长细比和稳定验算均未超过上述值。填板每个节间放一块(满足1l范围内不少于两块),75.440403.08123.2alcmicm5.2下弦杆截面选择下弦杆也采用相同截面,按最大内力计算:max383.4NkN,0300xlcm,0450ylcm选择两个不等肢角钢2908,227.88Acm,2.76xicm,4.02yicm钢结构课程设计-5-300108.7=3502.76oxxxli450111.9=3504.02oyyyli3222383.410137.5/215/27.8810NNmmNmmA5.3腹杆截面选择①杆件A-a:16.67NkN,cmlloyox199选用两个等肢角钢2635,组成T型截面截面几何特性:212.29Acm,cmix94.1,cmiy89.215010294.1199x,542.0x1509.6889.2199y,758.0y截面验算:3222min16.671025.03/215/0.54212.2910NNmmfNmmA②杆件B-a:251.4NkN,251.8oxoyllcm选用两个不等肢角钢2100637,长肢相并。截面几何特性:222.22Acm,cmix20.3,cmiy58.2251.879.11503.2x,693.0x,251.898.11502.58y,567.0y截面验算:3222min251.410199.5/215/0.56722.2210NNmmNmmA③杆件B-b:182.3NkN,0.80.8260.1208.1oxllcm,260.1oylcm所需截面:2182.38.48215nNAcmf选用两个等肢角钢2505,组成T形截面钢结构课程设计-6-截面特性:229.618.48nAcmcm,cmix53.1,cmiy38.2208.1136.63501.53x,260.1109.83502.38y④杆件C-b:33.3NkN,.0.80.8227.5182oxllcm,227.5oylcm选用两个等肢角钢2505,组成T形截面。截面几何特性:29.61Acm,cmix53.1,cmiy38.2182=119.71501.53x,438.0x227.596.21502.38y,580.0y截面验算:3222min33.31079.1/215/0.4389.6110NNmmNmmA⑤杆件D-b:139.0NkN,0.80.8285.1228.1oxllcm,285.1oylcm选用两个等肢角钢2705,组成T形型截面截面几何特性:214.82Acm,2.32xicm,3.36yicm228.198.31502.32x,566.0x285.185.21503.36y,652.0y截面验算:3222min139.010165.7/215/0.56614.8210NNmmfNmmA⑥杆件D-c:86.0NkN,0.80.8285.1228.1oxllcm,285.1oylcm所需截面:286.0400215nNAmmf选用两个等肢角钢2505,组成T型截面截面几何特性:229.64Acmcm,cmix94.1,cmiy89.2228.1117.63501.94x,285.198.73502.89y⑦杆件E-c:50NkN,0.80.8257.5206oxllcm,257.5oylcm钢结构课程设计-7-采用两个等肢角钢2505,组成T形截面截面几何特性:29.61Acm,cmix53.1,cmiy38.2206134.61501.53x,364.0x257.5108.81502.38y,501.0y截面验算:3222min50.010142.9/215/0.3649.6110NNmmfNmmA⑧杆件E-f及H-g:内力N小于杆件D-c,杆长l同样小于杆件D-c,故采用两个等肢角钢2505,组成T形截面时,可满足受力要求。杆件F-f及I-g:内力N
本文标题:钢结构屋架课程设计
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