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目 录 第一章 结构选型与布置········································································ 1 第一节 工程概况·················································································· 1 第二节 结构选型·················································································· 1 第三节 结构布置·················································································· 2 第二章 楼梯与楼板设计········································································ 6 第一节 楼梯设计·················································································· 6 第二节 楼板设计·················································································· 10 第三章 10轴框架设计············································································ 13 第一节 恒载计算·················································································· 13 第二节 活载计算·················································································· 26 第三节 风载计算·················································································· 31 第四节 参数输入及计算······································································ 33 第五节 电算结果分析·········································································· 35 第四章 基础设计···················································································· 40 第一节 柱1下基础设计······································································ 40 第二节 柱2下基础设计······································································ 48 第三节 柱3下基础设计······································································ 55 参考文献···································································································· 56 附录············································································································ 57 致谢············································································································ 73 第一章 结构选型与布置 第一节 工程概况 贵港市公安局巡警支队办公楼位于市区主干道路旁,总建筑面积3790.2㎡,层数6层,建筑高度22米。结构安全等级二级,使用年限50年,抗震设防烈度6度,采用框架结构。 建筑经济指标:1000元/ m2 ; 地质条件:50cm表以下为亚粘土,地基容许承载力标准值为220——250KPa; 施工条件:建筑工程总承包二级以上。 建筑平面基本规则,总长62m>55m,宽9.6m,按照规范要求,需要设置变形缝一条。为不影响建筑美观要求,采用后浇带代替变形缝,带宽500mm,位于⑧轴线和⑨轴线的中间。 建筑物的楼面使用活荷载为室内2.0 kN/m2,走廊2.5 kN/m2,上人屋面活荷载为2.0 kN/m2。 第二节 结构选型 一、结构选型的重要性 建筑结构采用什么样的体型,首先关系到这个建筑的安全问题;采用合理的体型,不但使建筑安全,还可以节约造价,降低成本;同时,一个建筑外表的美观,很大程度上也取决于结构体型。 二、结构体系的选择 每种建筑结构都有他自己的特点:框架结构体系自重轻,抗侧刚度较小,在强震下结构整体位移和层间位移都较大,非结构性破坏较严重,主要适合于非抗震区和低层建筑;剪力墙结构比框架刚度大、空间整体性好,用钢较省,抗震性能良好,但剪力墙结构墙体多,使建筑平面布置和使用要求受到一定的限制,不容易形成大空间,适合于住宅和旅馆;框剪结构体系具有框架结构和剪礼墙结构二者的特点,应用比较灵活,适合于高层办公建筑和旅馆建筑;钢结构成本高,耐火性差,适合于高层建筑以及工业厂房。 同时每个工程都他自己的特点。我们要熟悉每种结构的特点,了解该工程的具体情况,使结构符合有关规范,满足建筑使用功能的要求,选出合理的结构型式。 综上所言,本建筑采用框架结构。 第三节 结构布置 一、布置内容 (一)承重方案:本工程采用横向框架承重。 (二)梁的布置 原则:(1)梁应为几何不变体系; (2)多跨梁宽度应该保持不变; (3)尽可能使梁的纵向轴线与柱的截面几何中心重合。 1、框架梁布置 h=l/8——l/12; b=(h/3——h/2); l0/h≧4; b≧200mm; KL203: l=9600mm,800mm≦h≦1200mm,取h=800mm; 267mm≦b≦400mm,取b=300mm>200mm; l0/h=9600/800=12>4 满足。 其余框架梁依此类推。 2、其他梁、连续梁的布置 梁截面高由建筑立面确定,而且一般应满足: h= l/12——l/18; b=(h/3——h/2); b≧200mm; L204 : l=4000mm,222mm≦h≦333mm,取h=300mm; b≧200mm;取b=200mm; 3、悬臂梁 宽度b保持不变,大概取h=0.167l,(l为挑出部分); KL203(1A):b=300mm,l=2100mm,h=400mm (三)柱子布置 1、验证建筑施工图已给的柱子尺寸,并进行柱子布置 框架柱:大概取h=(1/15~~1/20)H;H、b≧300mm; h/b=1~~2;H/h≧4 以避免短柱; 2、应该符合抗震延性要求,验算控制轴压比 μ0=N/fcbh≦[μ0] N=GnF G:结构单位面积上的重量; n:验算截面以上的楼层数; F:验算柱子的受荷面积。 底层 D轴与13轴交点的KZ2: 按建筑图上取b=450mm,h=600mm;层高H=3900mm; h/b=600/450=1.33;H/h≧3900/600=6.5>4 满足 大约取G=(8×1.2+2.5×1.4)=13.1KN/㎡ n=6; F=4800×4000=19200000㎜2 总高ΣH=3.9×2+3.2×4=20.6m<30m;取[μ0]=1.0; μ0=13.1×6×19200000×10-3/(9.6×450×600) =0.582<1.0满足! 其他柱按此法经验算,亦满足要求。 用PKPM计算10轴框架内力时,同时检验了该框架柱的轴压比,见下图:
第二章 楼梯与楼板设计 第一节 楼梯设计 基本资料:层高3.2m,踏步尺寸:160×260mm,平台梁混凝土用C25,其他混凝土采用C20,板钢筋采用HPB235,梁纵筋采用HRB335,楼梯上均布荷载标准值2.5KN/㎡. 一、梯段板设计 设板厚h=100mm,约为斜长的1/30,2853/30=94mm; 板的倾斜角:tgα=160/260=0.6,cosα=0.852; 取1米宽板带计算。 (1) 荷载计算 荷载种类 荷载标准值(KN/m) 恒载: 板面(含陶瓷地砖和水泥沙浆结合层) 0.55÷(0.26/0.852)=1.80 三角形踏步 0.6×0.26×0.16×25/(0.26/0.852)=2.04 混凝土斜板 0.10×25=2.5 板底抹灰 ( 20mm厚 ) 0.02×17=0.34 活载: 2.5 总荷载设计值:P=1.2×6.68+1.4×2.5=11.52 KN/m (2) 截面设计 板计算跨度:ln=2.340/0.852=2.746m 弯矩设计值:M=0.1×P×ln2=0.1×11.52×2.7462=8.69 KN*m 板的有效高度:100-20=80mm αs=M/(α1×fc×b×h02) =8690000/(1.0×9.6×1000×802)=0.141 rs=0.5×[1+(1-2×0.141)1/2]=0.924 As=M/ (rsfyh0)=8690000/(0.924×210×80)=560mm2 选配φ10@140 As=561 mm2 ρ=561/(1000×80)=0.70% >ρmin=0.2%×h/h0=0.25% 满足 分布钢筋每级踏步1根φ8 二、平台板设计 设平台板厚80mm,取1m宽板带计算。 (1) 荷载计算 荷载种类 荷载标准值(KN/m) 恒载: 陶瓷地砖 1×0.12=0.12 水泥沙浆结合层 (20mm厚) 0.02×20=0.40 80mm厚钢筋混凝土板 0.08×25=2 板底抹灰 0.02×17=0.34 小计 2.86 活载 2.5 总荷载设计值:P=1.2×2.86+1.4×2.5=6.93 KN/m (3) 截面设计 平台板计算跨度:l01=2040-100=1940mm;l02=3000mm 弯矩设计值:M=0.1×P×l012=0.1×6.93×1.942=2.61 KN*m 板的有效高度h0=80-20=60mm αs=M/(α1×fc×b×h02) =2610000/(1.0×9.6×1000×602) =0.076 rs=0.5×[1+(1-2×0.076)1/2]=0.960 As=M/ (rsfyh0) =2610000/(0.960×210×60) =216mm2 选配φ8@200 As=251mm2 ρ=251/(1000×60)=0.42% >ρmin=0.2%×h/h0=0.27% 满足 (三)平台梁设计 设平台梁截面尺寸为200×300, 设计算跨度l0=1.05ln=1.05×2760=2898mm,取2.9m. (1)荷载计算 荷载种类 荷载标准值(KN/m) 恒载: 梁自重 0.2×(0.30-0.07)×25=1.15 梁侧粉刷 0.02×(0.30-0.07)×2×17=0.16 平台板传来 2.86×(2.04-0.12)/2=2.75 梯段板传来 6.68×2.34/2=7.82 小计 11.88 活载 2.5×(2.34/2+1.92/2)=5.33 总荷载设计值:P=1.2×11.88+1.4×5.33=21.72 KN/m 弯矩设计值:M=1/(8×P×l02) =0.125×21.72×2.92=22.83 KN*m 剪力设计值:V=0.5×P×l0=0.5×21.72×2.9=31.49KN 截面按倒L形计算,bf′=b+5hf′=200+5×80=600mm 梁的有效高度h0=300-35=265mm α1×fc×bf′×hf′(h0-0.5 hf′) =1.0×11.9×600×80×(265-0.5×80) =103680000N*mm=128.52kN*m>22.83 kN*m 为第一类型截面 αs=M/(α1×fc×bf′×h02) =22830000/(1.0×11.9×600×2652)=0.045 rs=0.5×[1+(1-2×0.045)1/2]=0.977 As=M/ (rsfyh0)=22830000/(0.977×300×265)=294mm2 选配3 Ф14 As=461mm2 ρ=461/(200×265) =0.87% >ρmin=0.2%×300/265=0.24% 满足 箍筋计算: 0.7ftbh0=0.7×1.27×200×265=47117N>V=31490N 按构造配筋,选配 φ6@200 As=141mm2 ρsv=141/(200×200) =0.353% >ρsvmin=0.24×1.1/210=0.126% 满足 第二节 楼板设计 一、基本资料 屋面2——5轴屋板设计,屋面上人活载标准值:2.0kN/m2,初设板厚都为100mm,混凝土采用C20,板中钢筋采用HPB235钢,fy=210N/mm2,混凝土泊松比为ν=0.2,计算单元如下: 图2-2:屋面板计算简图 二、恒载计算 名称 荷载标准值 kN/m2 架空层、结构找坡: 3.02 APP改性防水沥青: 0.05 15mm厚沙浆找平 0.015×17=0.255 100mm厚钢筋混凝土 25×0.1=2.5 20mm厚板底抹灰 0.02×17=0.34 小计 6.165 三、按弹性理论设计 经过计算,均为双向板,故可按弹性理论计算内力 (1) 荷载设计值 q=1.4×2=2.8 kN/m2;g=1.2×6.615=7.398 kN/m2; g+0.5q=7.398+0.5×2.8=8.798 kN/m2 0.5q=1.4 kN/m2 g+q=7.398+2.8=10.198 kN/m2 (2)计算跨度、计算内力 
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