发布时间 : 星期二 文章某旅馆八层框架结构设计计算书 土木工程专业毕业设计 毕业论文更新完毕开始阅读3db9a24ca617866fb84ae45c3b3567ec102ddc9f
=758.46KNm
M顶cu1696.78?103?1607.68?400?(555?45)?0.5?1696.78?10?600?(1?)
1.0?600?600?26.83=747.48KNm 其余各层计算见表22
(2)第i层柱的相对弹性线刚度k(i)
k(i)?[Ec(i)I(i)Ec0I0/] h(i)h0式中
Ec0I0为标准层的线刚度。此处以3~8层为标准层,设其相对线刚度为1,则2h06004500460045004/?1.629,1层k?/?1.244 层k?4.23.35.53.3(3)楼层受剪承载力计算
采用简化的柱底塑性铰法计算。计算过程见表21
楼层受剪承载力计算 表21
楼层柱H柱G柱F柱EVyi1255.54272.70298.64284.311111.202318.16340.42374.52355.121388.223279.57298.50326.51310.421215.004253.32271.02302.95287.471114.765224.48240.25264.26249.38978.386193.07206.21226.07212.97838.317159.07168.88183.16172.64683.758122.49128.28135.57128.35514.69 (4)薄弱层谈塑性层间变形验算 由式?y?VyiVei可求得各层ξy见表22。
楼层屈服强度系数求解 表22
楼层1Vyi1111.20Vei2212.60ξ0.5021388.222115.900.6631215.001954.600.6241114.761750.300.645978.381494.300.656838.311180.800.717683.75821.760.838514.69515.161.00 由此可确定薄弱楼层的位置。现选1、3层为薄弱层,其弹塑性层间位移计算结果见表。由表23可见,最大层间弹塑性位移发生在第1层,其θp=1/62<[θp]=1/50,故满足规范要求。
弹塑性层间位移验算 表23
楼层Vei(KN)Di(N/mm)Δuei(mm)ηp12212.6045210.0048.941.8031954.6069210.0028.241.80九、次梁计算 1.荷载计算(见表24) 2.内力计算(见表24)
Δupi(mm)θp=Δupi/hi88.090.0250.830.02 次梁荷载及内力计算 表24
HG跨 层次 8 1 1.2g 1.4q p 支座负弯矩 KNm -35.12 -51.15 -54.47 FE跨 支座负弯矩 KNm -68.07 -97.95 -103.86 跨中正弯矩 KNm 17.56 25.57 27.24 跨中正弯矩 KNm 34.04 48.98 51.93 剪力 KN 46.82 68.20 72.63 剪力 KN 68.07 97.95 103.86 KN/m KN/m KN/m 19.00 1.81 20.81 25.07 7.21 32.28 1.2g 1.4q p 7~2 23.10 7.21 30.31 层次 8 1 KN/m KN/m KN/m 20.69 2.00 22.69 26.58 8.04 34.62 7~2 24.61 8.04 32.65 3.承载力计算
(1) 正截面受弯承载力计算
同连梁一样,跨内按T行截面设计,翼缘计算宽度对于HG跨取b'f?1500mm 对于FE跨取b'f?2000mm
次梁正截面配筋计算 表25
截面弯矩设计值H—8-35.120.0380.039175.5 2 185090.40H-51.150.0550.057258.0 2 185090.40H—1-54.470.0590.060275.32 206280.49HG中—817.560.0030.00386.2 2 185090.40HG中25.570.0050.005125.6 2 18509G左—8-35.120.0380.039175.5 2 185090.40G左-51.150.0550.057258.0 2 18509F右—8-68.070.0730.076346.9 2 185090.40F右-97.950.1050.112508.5 2 185090.40F右—1-103.860.1120.119541.32 206280.49FE中—834.040.0050.005167.2 2 185090.40FE中48.960.0070.007240.8 2 185090.40FE中—151.930.0070.007255.52 206280.49E—8-68.070.0730.076346.9 2 185090.40E-97.950.1050.112508.5 2 185090.40E—1-103.860.1120.119541.32 206280.49?s?M?1fcbh02ξAs???1fcbh0/fy选配钢筋实配面积ρ(%)截面弯矩设计值?s?M?1fcbh02ξAs???1fcbh0/fy选配钢筋实配面积ρ(%)截面弯矩设计值0.400.40HG中—1G左—127.24-54.470.0050.005133.92 206280.490.0590.060275.32 206280.49?s?M?1fcbh02ξAs???1fcbh0/fy选配钢筋实配面积ρ(%) (2)斜截面受剪承载力计算
Vmax?103.86KN?0.2?cfcbh0?0.2?1.0?14.3?250?510?364.65KN
故截面尺寸满足要求。
梁端加密区箍筋取双肢φ8@100,箍筋用HRB235级钢筋(fyv=210N/mm2),则
0.42ftbh0?1.25fyvAsvh0s201?510 100?0.42?1.43?250?510?1.25?210??345.67KN?103.86KN加密区长度取0.85m,非加密区箍筋取双肢φ8@150,对于箍筋设置满足要求。 十、板的计算
对于EF、GH跨,由于l02/ l01>2,按双向板进行计算;对于FG跨按单向板计算。双向板按弹性理论设计。
(1) 设计荷载
q=2.0×1.4=2.8KN/m2 g=4.27×1.2=5.12KN/m2 p=q+g=7.92 KN/m2
(2) 计算跨度 l0=lc( 轴线间距离) (3) 弯矩计算 边跨 板弯矩计算 表26 l01(m)l02(m)l01/l02m1m2m'1m'2M1M2M'1M'23.34.53.36.0240060004500项目区格 AA'AAAAAAAAAA0.730.550.03060.03850.01230.0056-0.0715-0.0829-0.0567-0.0572.643.321.971.60-6.17-7.15-9.09-16.25 A'A'A'A'A'A'A'A'A'A'330066006600660066006600m'1m1m'2l01l02pm2 中间跨按单向板计算 图25:板区格划分图 支座负弯矩MG?MF??跨中正弯矩MGF?1?7.92?2.42??3.80KNm 121?7.92?2.42?3.80?1.90KNm 8