梁宽度b=250mmb'f=600mm梁高度h=800mmh'f=100mmas=60mma's=35mmh0=740mm混凝土选用C25fc=11.9N/㎜2a1=1ft=1.27N/㎜2b1=0.8钢筋选用2其中,1;HPB235级钢2;HRB335级钢3;HRB400级钢fy=f'y=300N/㎜2ξb=0.550A)判断T形截面类型492.66kNmM实际=486kNm<Mu取钢筋直径¢=20实取9根实配钢筋面积AS=2827.43mm2#REF!Asmin=430
AsC)双筋矩形截面已知弯矩求配筋M实际=243kNmMu,max已知:A's=942.483¢20为充分发挥受压钢筋A's的作用,取As2=A's=942.48mm2Mu2=f'yA's(h0-a's)=199.33kNm由弯矩Mu1按单筋矩形截面求As1Mu1=M-Mu2=43.67kNm因此所需的受压钢筋为199.40㎜2纵向受拉钢筋总截面面积As=As1+As2=1141.88㎜2受拉钢筋取钢筋直径¢=20实取8根实配钢筋面积AS=2513.27mm2OK!验算受压区高度x=fyAs1/(α1fcb)=20.11mm2α's=70mm>xNO!!!梁宽度b=250mm梁高度h=600mmas=60mma's=35mmh0=540mm梁自重3.75kN/m混凝土选用C30fc=14.3N/㎜2a1=1ft=1.43N/㎜2b1=0.8钢筋选用2其中,1;HPB235级钢2;HRB335级钢3;HRB400级钢fy=f'y=300N/㎜2ξb=0.550A)单筋矩形截面在纵向受拉钢筋达到充分发挥作用或不出现超筋破坏所能承受的最大弯矩设计值Mu,max=415.68kNmB)单筋矩形截面已知弯矩求配筋M实际=128kNm845.69㎜2取钢筋直径¢=18实取4根实配钢筋面积AS=1017.88mm2OK!Asmin=322.5AsC)双筋矩形截面已知弯矩求配筋M实际=243kNmMu,max已知:A's=942.483¢20为充分发挥受压钢筋A's的作用,取As2=A's=942.48mm2Mu2=f'yA's(h0-a's)=142.79kNm由弯矩Mu1按单筋矩形截面求As1Mu1=M-Mu2=-62.79kNm因此所需的受压钢筋为-376.55㎜2纵向受拉钢筋总截面面积As=As1+As2=565.93㎜2受拉钢筋取钢筋直径¢=20实取8根实配钢筋面积AS=2513.27mm2OK!验算受压区高度x=fyAs1/(α1fcb)=-31.60mm2α's=70mm>xNO!!!面恒载标准值9.2kN/㎡面活载标准值4.0kN/㎡梁承担面荷载宽度b0=3.0m1120厚预制空心板含灌缝2.10kN/㎡梁上墙高3.0kN/m2120标准砖墙加抹灰2.84kN/m梁上墙每米荷载情况4;见右边项3120多孔砖墙加抹灰2.48kN/m梁上墙线荷载标准值15.0kN/m4240标准砖墙加抹灰5.00kN/m梁跨度L=3.6m5240多孔砖墙加抹灰4.28kN/m梁宽度b=250mm6240砼砌块3.43kN/m梁高度h=600mm7370标准砖墙加抹灰7.34kN/mas=36mm8370多孔砖墙加抹灰6.23kN/mh0=564mm9200砼砌块2.86kN/m受弯构件经济配筋率梁自重标准值3.75kN/m钢筋混凝土板(0.3~0.8)%梁上线荷载设计值q=72.4kN/m矩形截面梁(0.6~1.5)%梁跨中集中荷载标准值80.0kNT形截面梁(0.9~1.8)%梁跨中正弯矩M=203.7kN·m混凝土选用C30fc=14.3N/㎜2a1=1ft=1.43N/㎜2b1=0.8钢筋选用2其中,1;HPB235级钢2;HRB335级钢3;HRB400级钢fy=300N/㎜2x=127.5969939304x=0.226xb=1337.006407879mm2取钢筋直径¢=22实取4根实配钢筋面积AS=1520.5308443375mm2OK!Asmin=303.15As箍筋¢=8@150OK!实配箍筋面积ASV=335.1032163829mm2钢筋参数弹性模量fyξb15202530354045505560657075801HPB2352.1x1052100.6140.6140.6140.6140.6140.6140.6140.6140.6040.5940.5840.5750.5650.5552HRB3352.0x1053000.5500.5500.5500.5500.5500.5500.5500.5500.5400.5310.5220.5120.5030.4933HRB4002.0x1053600.5180.5180.5180.5180.5180.5180.5180.5180.5080.4990.4900.4810.4720.462砼参数轴心抗压fc7.209.6011.9014.3016.7019.1021.1023.1025.3027.5029.7031.8033.8035.90轴心抗拉ft0.911.101.271.431.571.711.801.891.962.042.092.142.182.22α11.001.001.001.001.001.001.001.000.990.980.970.960.950.94β10.800.800.800.800.800.800.800.800.790.780.770.760.750.74砼立方体抗压强度标准值fcu,k1520253035404550556065707580εcu0.00330.00330.00330.00330.00330.00330.00330.00330.003250.00320.003150.00310.003050.003弹性模量N/㎜2Ec2.202.552.803.003.153.253.353.453.553.603.653.703.753.80泊松比νc0.200.200.200.200.200.200.200.200.200.200.200.200.200.20线胀系数αc1x10-51x10-51x10-51x10-51x10-51x10-51x10-51x10-51x10-51x10-51x10-51x10-51x10-51x10-5切变模量N/㎜2Gc0.881.021.121.201.261.301.341.381.421.441.461.481.501.52ξb=β1/(1+fy/Es/εcu)不考虑地震组合受弯、偏心、轴心受拉构件一侧的受拉钢筋最小配筋率不考虑地震组合受压构件纵向受力钢筋最小配筋百分率钢筋强度等级2混凝土标号C30钢筋强度等级全部纵向钢筋0.645ft/fy=0.21%MAX(0.2,45ft/fy)=0.215%一侧纵向钢筋0.2注:受压钢筋全部纵向受力钢筋最小配筋百分率,当采用HRB400、RRB400级钢筋时应按表中规定减小0.1;当混凝土强度等级为C60及以上时应按表中规定增大0.1。考虑地震作用组合的框架梁纵向受拉钢筋的最小配筋百分率考虑地震作用组合的框架柱全部纵向受力钢筋最小配筋百分率抗震等级梁中位置柱类型抗震等级支座跨中一级二级三级四级一级0.4000.310框架中柱、边柱1.00.80.70.6二级0.3100.262框架角柱、框支柱1.21.00.90.8三、四级0.2620.215此表不考虑HPB235级钢筋注:柱全部纵向受力钢筋的最小配筋百分率,当采用HRB400级钢筋时应按表中数值减小0.1;当混凝土强度等级为C60及以上时应按表中数值增大0.1。钢筋参数混凝土参数抗震锚固长度系数12100.16152025303540455055606570758011.1523000.147.29.611.914.316.719.121.123.125.327.529.731.833.835.921.1533600.140.911.11.271.431.571.711.81.891.962.042.092.142.182.2231.0541第9.5.1条1、轴心受压构件、偏心受压构件全部纵向钢筋的配筋率,以及一侧受压钢筋的配筋率应按构件的全截面面积计算;2、轴心受拉构件、小偏心受拉构件一侧受拉钢筋的配筋率应按构件的全截面面积计算;3、受弯构件、大偏心受拉构件一侧受拉钢筋的配筋率应按构件的全截面面积扣除受压边缘面积(b'f-b)h'f后的截面面积计算;4、当钢筋沿构件截面周边布置时,“一侧的纵向钢筋”系指沿受力方向两个对边中的一边布置的纵向钢筋;第9.5.2条5、对卧置于地基上的混凝土板,板中受拉钢筋的最小配筋率可适当降低,但不应小于0.15%。不考虑地震组合钢砼受弯纵向受拉钢筋最大配筋率钢砼柱纵向钢筋最大配筋百分率钢筋强度等级混凝土标号C301非抗震结构柱1ρmax=4.181%2ρmax=2.622%3ρmax=2.058%2抗震结构框架柱注:当按一级抗震等级设计,且柱的剪跨比λ不大于2时,柱一侧纵向受拉钢筋配筋率不宜大于1.2%,且应沿柱全长采用复合箍筋。考虑地震作用组合的框架梁纵向受拉钢筋的最大配筋百分率柱牛腿纵向受拉钢筋配筋百分率抗震等级框架梁纵向受拉钢筋的最大配筋百分率1按柱牛腿有效截面计算不应小于max{0.2;45ft/fy}2按柱牛腿有效截面计算不宜大于0.6一级2.50%二级2.50%剪力墙的水平和竖向分布钢筋的最小配筋率三级2.50%非抗震钢砼剪力墙的水平和竖向分布钢筋的配筋率ρsh和ρsv;ρsh=Ash/(bSv);四级2.50%剪力墙ρsv=Asv/(bSh);Sh、Sv为竖向、水平分布钢筋的间距)≥0.2%。重要部位的钢筋砼梁中箍筋最小配筋率剪力墙,其水平和竖向分布钢筋的配筋率宜适当提高剪力墙,其水平和竖向分布钢筋的配筋率宜适当提高钢筋强度等级混凝土标号C301)一、二、三级抗震等级的剪力墙的水平和竖向分布钢筋最小配筋率均不应小于0.25;0.24ft/fyv0.28ft/fyv梁内受扭纵向受力钢筋的最小配筋百分率抗震剪力墙四级抗震等级不应小于0.20%;2)框架-剪力墙结构中的水平和竖向分布钢筋最小配筋1ρmin=0.163%0.191%10.58%率不应小于0.25%;3)部分框架-剪力墙结构的剪力墙底部加强部位的水平和竖向分布2ρmin=0.114%0.133%20.40%30.34%钢筋最小配筋率不应小于0.4%钢筋参数fyξb1520253035404550556065707580HPB2352100.6140.6140.6140.6140.6140.6140.6140.6140.6040.5940.5840.5750.5650.555HRB3353000.5500.5500.5500.5500.5500.5500.5500.5500.5400.5310.5220.5120.5030.493HRB4003600.5180.5180.5180.5180.5180.5180.5180.5180.5080.4990.4900.4810.4720.462砼参数fc7.209.6011.9014.3016.7019.1021.1023.1025.3027.5029.7031.8033.8035.90ft0.911.101.271.431.571.711.801.891.962.042.092.142.182.22α11.001.001.001.001.001.001.001.000.990.980.970.960.950.94β10.800.800.800.800.800.800.800.800.790.780.770.760.750.741)钢筋砼梁中箍筋配筋率1)V>0.7ftbh0ρsv=Asv/bs≥0.24ft/fyv2)在弯剪扭构件中,剪扭箍筋的配筋率ρsv=Asv/bs≥0.28ft/fyv,其中Asv为配置在同一截面内箍筋各肢的全部截面面积。具体见上表。2)梁内受扭纵向钢筋的配筋率Astl:沿截面周边布置的受扭纵向钢筋的总截面面积。受拉纵向钢筋的配筋率不应小于其中,b为矩形截面的宽度,或T形截面的腹板宽度,当T/(Vb)>2时,取T/(Vb)=2。受扭纵向受力钢筋的最小配筋百分率
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