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土木工程畢業(yè)設(shè)計-某四層框架結(jié)構(gòu)和樁基礎(chǔ)教學(xué)樓結(jié)構(gòu)設(shè)計-文庫吧資料

2024-08-19 08:32本頁面
  

【正文】 值p=+=平臺梁支座最大剪力:V=pL4n/2=平臺梁跨中截面最大彎矩:M=p(L4)2/8=()2/8=式中 L4—平臺梁的跨度,取兩軸線間的距離;L4n—平臺梁的凈跨截面設(shè)計1) 正截面受彎承載力計算:截面有效高度h0=h35=35035=315mmas=M/[fcb(h02)]=106/(2003152)=γs=[1+(12αs)189。]= As=M/(fyγsh0)=106/(21080)=86mm2選用Ф8200鋼筋,實配As=251mm2;分布鋼筋Ф82600,并在短邊和長邊方向配置負(fù)筋,在短邊方向配置Ф8200,并伸入板內(nèi)L3n/4;在長邊方向配置Ф8200,并伸入板內(nèi)L3n/4=1320/4=330mm。m配筋計算h0=10020=80mm αs=M/(fcbh02)= 106/(1000802)= γs=[1+(12αs)189。計算簡圖如圖44所示:圖44 PB2計算簡圖計算跨度:由于平臺板兩端均與梁整結(jié)所以計算跨度取凈跨l3n=1320mm,平臺板厚度 t3=100mm 。]= As=M/(fyγsh0)=106/(21080)=262mm2選用Ф8150鋼筋,實配As=335mm2;分布鋼筋Ф8150,并在短邊和長邊方向配置負(fù)筋,在短邊方向配置Ф8150,并伸入板內(nèi)L2n/4;在長邊方向配置Ф8150,并伸入板內(nèi)L2n/4=2280/4=570 mm。m配筋計算h0=10020=80mm αs=M/(fcbh02)=106/(1000802)= γs=[1+(12αs)189。計算簡圖如圖43所示:圖43 PB1計算簡圖計算跨度:由于平臺板兩端均與梁整結(jié)所以計算跨度取凈跨l2n=2280mm,平臺板厚度 t2=100mm 。 ]= As=M/(fyγs h0)=106/(210110)=623mm2選用Ф10125鋼筋,實配As=628mm2 ;分布鋼筋:Ф8300(即每一踏步下放一根),并在端部配置與跨中相同數(shù)量的負(fù)筋并伸入板內(nèi) L1n/4 = 3600/4=900mm。mh0=t120=130mm αs=M/(fcbh02)=106/(10001302)= γs=1ξ/2=[1+(12αs)189。梯段板的內(nèi)力計算,一般只需計算跨中最大彎矩即可。每米梯段板活荷載標(biāo)準(zhǔn)值qk=1=荷載總標(biāo)準(zhǔn)值 pk=+=。梯段板自重:g1 = (t1/cosα+d/2)γ2 = (+)25=式中: t1—斜板的厚度;d—踏步的高度;e—踏步的寬度;γ2—混凝土容重。對于底層的樓梯梯段板的計算跨度,其下端與混凝土基礎(chǔ)相連時,可按凈跨計算。圖41 樓梯的結(jié)構(gòu)布置梯段板的水平投影凈長為 l1n=3600mm梯段板的斜向凈長為 ln’=l1n/cosα=3600/=4096mm梯段板的厚度為t1=(1/30~1/25)ln’=(1/30~1/25)4096=137mm~164mm,取t1=150mm。樓梯為板式樓梯,樓梯踏步板板端支承在平臺梁上,作用于踏步板上的荷載直接傳至平臺梁。圖35 底層柱、墻最大組合內(nèi)力簡圖 第4章 樓梯設(shè)計第4章 樓梯設(shè)計根據(jù)設(shè)計任務(wù),對蛟川小學(xué)3樓一號樓梯進(jìn)行設(shè)計。用CAD制圖進(jìn)行圖面上的修改,驗算審核后打印出稿。在建模中,因為考慮到主次梁的截面尺寸選擇以及柱截面配筋是否滿足最小配筋率,故在模型中加入結(jié)構(gòu)構(gòu)造配筋,并同時加大了框架柱截面尺寸。具體配筋施工圖見CAD圖:結(jié)施0結(jié)施05。 CAD繪圖從SATWE程序中得到以上數(shù)據(jù),接著代入梁柱施工圖步驟中,進(jìn)行整體梁歸并與梁平法施工圖兩個計算步驟,得出四層梁和屋面層梁的平法配筋圖。本設(shè)計中梁經(jīng)計算后定為:主梁KL截面尺寸:bh = 250mm700mm次梁L截面尺寸:bh = 250mm600mm梁的配筋計算采用PKPM軟件,根據(jù)開題報告中所列的設(shè)計方法進(jìn)行設(shè)計,主要運用PKPM中的SATWE軟件進(jìn)行整體框架結(jié)構(gòu)計算及演算,其中部分荷載輸入引用經(jīng)驗公式。梁高選取原則:主梁:高跨比h/l=1/14~1/8 ;次梁:高跨比h/l=1/18~1/12 。m截面配筋 截面有效高度 hox = h25 = 12025 = 95mm hoy = h35 = 12035 = 85mm 式中h為板厚 各截面配筋計算見表26表26 板B3的配筋計算截面αs = Μ/(bho2fc)查表得γsAs = Μ/(γshofy) mm2實配鋼筋mm2y方向跨中59Φ8200As=251mm2y方向支座257Φ8150As=335mm2x方向跨中119Φ8200As=251mm2x方向支座286Φ8150As=335mm2注:表中所有配筋率ρ符合ρminρρmax,滿足構(gòu)造要求。m截面配筋 截面有效高度 hox = h25 = 12025 = 95mm hoy = h35 = 12035 = 85mm 式中h為板厚 各截面配筋計算見表24表24 板B2的配筋計算截面αs = Μ/(bho2fc)查表得γsAs = Μ/(γshofy) mm2實配鋼筋mm2y方向跨中101Φ8200As=251mm2y方向支座362Φ8125As=402 mm2x方向跨中139Φ8200As=251mm2x方向支座303Φ8125As=402 mm2注:表中所有配筋率ρ符合ρminρρmax,滿足構(gòu)造要求。 截面有效高度 hox = h25 = 12025 =95mm hoy = h35 = 12035 =85mm 式中h為板厚各截面配筋計算見表22表22 板B1的配筋計算截面αs = Μ/(bho2fc)查表得γsAs = Μ/(γshofy) mm2實配鋼筋mm2y方向跨中131Φ8200As=251 mm2y方向支座501Φ8100As=503 mm2x方向跨中206Φ8200As=251 mm2x方向支座528Φ10125As=628 mm2注:表中所有配筋率ρ符合ρminρρmax,滿足構(gòu)造要求。m截面配筋由于板下部受力鋼筋縱橫疊置,故計算時在兩個方向應(yīng)分別采用各自的截面有效高度hox,hoy。Μa 式中 181。Μb Μb181。時,支座彎矩即為最終彎矩,跨中彎矩除自由邊外可按下式計算: Μa181。按彈性方法計算ly / lx = ,應(yīng)按雙向板進(jìn)行計算設(shè)計板厚按不驗算剛度的條件取為 h ≥ L/45 = 3600/45 = 80mm雙向板民用建筑最小厚度為80mm,根據(jù)框架結(jié)構(gòu)現(xiàn)澆板的常用尺寸取h = 120mm?;炷敛捎肅25(fc=),板中受力鋼筋采用HPB235(fy=210N/mm2),梁中受力鋼筋采用HRB335(fy=300N/mm2)。 【關(guān)鍵詞】 結(jié)構(gòu)設(shè)計,框架結(jié)構(gòu),PKPM軟件,配筋圖,樁基礎(chǔ)20 AbstractStructural Design of Building 3 of Jiaochuan Primary School:Part 2【Abstract】 The graduation project content is to design the building 3 of Jiaochuan Primary School. This is a fourstorey building, adopting frame structure and pile foundation. It is located 6 antiseismic regions with soft soil. The wind load is , beams and columns was conducted using PKPM software. The design of staircase and pile foundation was conducted with hand calculation. Firstly the overall construction arrangement was carried on according to the construction blueprint which the design conditions provide. Secondly the PKPM model was built step by step after deciding the size of beams and columns, the thickness of slabs, the locations and size of shearing force walls, the loadings on the slabs and beams and other putation parameters. The calculation work was finished by SATWE. According to the PKPM’s calculation results, the reinforcement plans of slabs, beams and columns were drawn. After the hand calculation of the stair and pile foundation, the reinforcement plans of the stair structure, the pile position arrangement as well as the foundation plan were drawn. The entire design process
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