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1、结构构件计算书DJ1阶梯基础计算项目名称_日 期_设 计 者_校 对 者_一、设计依据建筑地基基础设计规范 (GB50007-2011)混凝土结构设计规范 (GB50010-2010)2015版二、示意图三、计算信息构件编号: JC-1计算类型: 验算截面尺寸1. 几何参数台阶数n=1矩形柱宽bc=300mm矩形柱高hc=300mm基础高度h1=500mm一阶长度 b1=500mmb2=500mm 一阶宽度 a1=500mma2=500mm2. 材料信息基础混凝土等级:C30ft_b=1.43N/mm2fc_b=14.3N/mm2柱混凝土等级:C30ft_c=1.43N/mm2fc_c=14.
2、3N/mm2钢筋级别:HRB400 fy=360N/mm23. 计算信息结构重要性系数: o=1.00 基础埋深: dh=1.000m纵筋合力点至近边距离:as=40mm基础及其上覆土的平均容重:=20.000kN/m3最小配筋率:min=0.150%4. 作用在基础顶部荷载标准组合值F=150.000kNMx=10.000kN*mMy=10.000kN*mVx=10.000kNVy=10.000kNks=1.00Fk=F/ks=150.000/1.00=150.000kNMxk=Mx/ks=10.000/1.00=10.000kN*mMyk=My/ks=10.000/1.00=10.000k
3、N*mVxk=Vx/ks=10.000/1.00=10.000kNVyk=Vy/ks=10.000/1.00=10.000kN5. 修正后的地基承载力特征值fa=170.000kPa 四、计算参数1. 基础总长 Bx=b1+b2+bc=0.500+0.500+0.300=1.300m2. 基础总宽 By=a1+a2+hc=0.500+0.500+0.300=1.300mA1=a1+hc/2=0.500+0.300/2=0.650m A2=a2+hc/2=0.500+0.300/2=0.650mB1=b1+bc/2=0.500+0.300/2=0.650m B2=b2+bc/2=0.500+0.
4、300/2=0.650m3. 基础总高 H=h1=0.500=0.500m4. 底板配筋计算高度 ho=h1-as=0.500-0.040=0.460m5. 基础底面积 A=Bx*By=1.300*1.300=1.690m26. Gk=*Bx*By*dh=20.000*1.300*1.300*1.000=33.800kNG=1.35*Gk=1.35*33.800=45.630kN五、计算作用在基础底部弯矩值Mdxk=Mxk-Vyk*H=10.000-10.000*0.500=5.000kN*mMdyk=Myk+Vxk*H=10.000+10.000*0.500=15.000kN*mMdx=Mx
5、-Vy*H=10.000-10.000*0.500=5.000kN*mMdy=My+Vx*H=10.000+10.000*0.500=15.000kN*m六、验算地基承载力1. 验算轴心荷载作用下地基承载力pk=(Fk+Gk)/A=(150.000+33.800)/1.690=108.757kPa【5.2.1-2】因o*pk=1.00*108.757=108.757kPafa=170.000kPa轴心荷载作用下地基承载力满足要求2. 验算偏心荷载作用下的地基承载力exk=Mdyk/(Fk+Gk)=15.000/(150.000+33.800)=0.082m因 |exk| Bx/6=0.217m
6、x方向小偏心,由公式【5.2.2-2】和【5.2.2-3】推导Pkmax_x=(Fk+Gk)/A+6*|Mdyk|/(Bx2*By) =(150.000+33.800)/1.690+6*|15.000|/(1.3002*1.300) =149.722kPaPkmin_x=(Fk+Gk)/A-6*|Mdyk|/(Bx2*By) =(150.000+33.800)/1.690-6*|15.000|/(1.3002*1.300) =67.792kPaeyk=Mdxk/(Fk+Gk)=5.000/(150.000+33.800)=0.027m因 |eyk| By/6=0.217my方向小偏心Pkmax
7、_y=(Fk+Gk)/A+6*|Mdxk|/(By2*Bx) =(150.000+33.800)/1.690+6*|5.000|/(1.3002*1.300) =122.412kPaPkmin_y=(Fk+Gk)/A-6*|Mdxk|/(By2*Bx) =(150.000+33.800)/1.690-6*|5.000|/(1.3002*1.300) =95.102kPa3. 确定基础底面反力设计值Pkmax=(Pkmax_x-pk)+(Pkmax_y-pk)+pk =(149.722-108.757)+(122.412-108.757)+108.757 =163.377kPao*Pkmax=1
8、.00*163.377=163.377kPa1.2*fa=1.2*170.000=204.000kPa偏心荷载作用下地基承载力满足要求七、基础冲切验算1. 计算基础底面反力设计值1.1 计算x方向基础底面反力设计值ex=Mdy/(F+G)=15.000/(150.000+45.630)=0.077m因 ex Bx/6.0=0.217mx方向小偏心Pmax_x=(F+G)/A+6*|Mdy|/(Bx2*By) =(150.000+45.630)/1.690+6*|15.000|/(1.3002*1.300) =156.722kPaPmin_x=(F+G)/A-6*|Mdy|/(Bx2*By) =
9、(150.000+45.630)/1.690-6*|15.000|/(1.3002*1.300) =74.792kPa1.2 计算y方向基础底面反力设计值ey=Mdx/(F+G)=5.000/(150.000+45.630)=0.026m因 ey By/6=0.217y方向小偏心Pmax_y=(F+G)/A+6*|Mdx|/(By2*Bx) =(150.000+45.630)/1.690+6*|5.000|/(1.3002*1.300) =129.412kPaPmin_y=(F+G)/A-6*|Mdx|/(By2*Bx) =(150.000+45.630)/1.690-6*|5.000|/(1
10、.3002*1.300) =102.102kPa1.3 因 Mdx0 Mdy0 Pmax=Pmax_x+Pmax_y-(F+G)/A=156.722+129.412-(150.000+45.630)/1.690=170.377kPa1.4 计算地基净反力极值Pjmax=Pmax-G/A=170.377-45.630/1.690=143.377kPaPjmax_x=Pmax_x-G/A=156.722-45.630/1.690=129.722kPaPjmax_y=Pmax_y-G/A=129.412-45.630/1.690=102.412kPa2. 验算柱边冲切YH=h1=0.500m, YB
11、=bc=0.300m, YL=hc=0.300mYB1=B1=0.650m, YB2=B2=0.650m, YL1=A1=0.650m, YL2=A2=0.650mYHo=YH-as=0.460m2.1 因 (YH800) hp=1.02.2 x方向柱对基础的冲切验算x冲切位置斜截面上边长bt=YB=0.300mx冲切位置斜截面下边长bb=YB+2*YHo=1.220mx冲切不利位置bm=(bt+bb)/2=(0.300+1.220)/2=0.760mx冲切面积 Alx=max(YL1-YL/2-YHo)*(YB+2*YHo)+(YL1-YL/2-YHo)2,(YL2-YL/2-YHo)*(Y
12、B+2*YHo)+(YL2-YL/2-YHo)2=max(0.650-0.300/2-0.460)*(0.300+2*0.460)+(0.650-0.300/2-0.460)2,(0.650-0.300/2-0.460)*(0.300+2*0.460)+(0.650-0.300/2-0.460)2)=max(0.050,0.050)=0.050m2x冲切截面上的地基净反力设计值Flx=Alx*Pjmax=0.050*143.377=7.226kNo*Flx=1.00*7.226=7.23kNo*Flx0.7*hp*ft_b*bm*YHo (6.5.5-1) =0.7*1.000*1.43*76
13、0*460=349.95kNx方向柱对基础的冲切满足规范要求2.3 y方向柱对基础的冲切验算y冲切位置斜截面上边长at=YL=0.300my冲切位置斜截面下边长ab=YL+2*YHo=1.220my冲切面积 Aly=max(YB1-YB/2-YHo)*(YL+2*YHo)+(YB1-YB/2-YHo)2,(YB2-YB/2-YHo)*(YL+2*YHo)+(YB2-YB/2-YHo)2)=max(0.650-0.300/2-0.460)*(0.300+0.460)+(0.650-0.300/2-0.460)2,(0.650-0.300/2-0.460)*(0.300+0.460)+(0.650
14、-0.300/2-0.460)2)=max(0.050,0.050)=0.050m2y冲切截面上的地基净反力设计值Fly=Aly*Pjmax=0.050*143.377=7.226kNo*Fly=1.00*7.226=7.23kNo*Fly0.7*hp*ft_b*am*YHo (6.5.5-1)=0.7*1.000*1.43*760*460=349.95kNy方向柱对基础的冲切满足规范要求八、基础受剪承载力验算1. 计算剪力Az=a1+a2+hc =500+500+300 =1300mmBz=b1+b2+bc =500+500+300 =1300mmA=Az*max(b1,b2)=1300.0
15、*max(500.0,500.0)=0.65m2Vs=A*p=0.7*88.8=57.7kN2. 计算截面高度影响系数hshs=(800/h0)1/4=(800/800.0)1/4=1.03. 剪切承载力验算Ao=Az*h1 =1300*500 =650000.00mm2o*Vs=1.0*57.7=57.7kN 0.7hsftAo=0.7*1.0*1.43*650000.0=650.6kN受剪承载力验算满足要求!九、柱下基础的局部受压验算因为基础的混凝土强度等级大于等于柱的混凝土强度等级,所以不用验算柱下扩展基础顶面的局部受压承载力。十、基础受弯计算1. 因Mdx0 , Mdy0 此基础为双向
16、受弯2. 计算I-I截面弯矩因 ex Bx/6=0.217m x方向小偏心a=(Bx-bc)/2=(1.300-0.300)/2=0.500mPj1=(Bx-a)*(Pmax_x-Pmin_x)/Bx)+Pmin_x-G/A =(1.300-0.500)*(156.722-74.792)/1.300)+74.792-45.630/1.690 =98.211kPa因 ey By/6=0.217m y方向小偏心a=(By-hc)/2=(1.300-0.300)/2=0.500mPj2=(By-a)*(Pmax_y-Pmin_y)/By)+Pmin_y-G/A =(1.300-0.500)*(129
17、.412-102.102)/1.300)+102.102-45.630/1.690 =91.909kPax=1.063y=1.024MI_1=1/48*x*(Bx-bc)2*(2*By+hc)*(Pj1+Pjmax_x)=1/48*1.063*(1.300-0.300)2*(2*1.300+0.300)*(98.211+129.722)=14.63kN*mMII_1=1/48*y*(By-hc)2*(2*Bx+bc)*(Pj2+Pjmax_y)=1/48*1.024*(1.300-0.300)2*(2*1.300+0.300)*(91.909+102.412)=12.03kN*m十一、计算配筋
18、10.1 计算AsxAsx_1=o*MI_1/(0.9*(H-as)*fy) =1.00*14.63*106/(0.9*(500.000-40.000)*360) =98.2mm2Asx1=Asx_1=98.2mm2Asx=Asx1/By=98.2/1.300=76mm2/mAsx=max(Asx, min*H*1000) =max(76, 0.150%*500*1000) =750mm2/m选择钢筋12150, 实配面积为754mm2/m。10.2 计算AsyAsy_1=o*MII_1/(0.9*(H-as)*fy) =1.00*12.03*106/(0.9*(500.000-40.000)*360)=80.7mm2Asy1=Asy_1=80.7mm2Asy=Asy1/Bx=80.7/1.300=62mm2/mAsy=max(Asy, min*H*1000) =max(62, 0.150%*500*1000) =750mm2/m选择钢筋12150, 实配面积为754mm2/m。第9页,共9页
