篇一:35米预应力简支T梁毕业设计
摘 要
本次设计的是某大桥35m后张法预应力混凝土简支T梁桥上部结构设计。根据相关技术规范要求,通过设计任务书、开题报告给出的基本数据,设计上部构造形式、横截面相应宽模度、预置高度、边梁悬臂长度、截面尺寸等
本设计采用的是后张法预应力混凝土的简支T型梁桥,35mT梁的计算跨径是34.0m,梁长34.96m,主梁为变截面T型梁。路基全宽26m,半幅桥梁宽12.75m,两侧采用刚性护栏宽度各0.5m,不设人行道;桥面铺装采用10cm沥青混凝土9cm水泥混凝土;车道数为双向4车道;汽车荷载是公路-Ⅰ级。上部构造形式采用5梁式;梁宽模数为B=2.4m,T梁预制高度为2.25m。
具体包括以下几个部分:桥型布置,结构各部分尺寸拟定;选取计算结构简图;恒载内力计算;活载内力计算;荷载组合;预应力钢束的估算及其布置;配筋计算;预应力损失计算;截面强度验算;截面应力及变形验算;行车道板的计算。
使用的工具有:”CAD”绘图软件、”MathType”数学公式编辑器、”桥梁博士”计算软件。
关 键 词:后张法,预应力混凝土,内力计算
35 meters of a bridge in Xinjiang post-tensioned Concrete simply
supported T beam bridge structure design
Abstract
The design of a bridge in XinJiang 35m post-tensioned prestressed concrete simply supported T beam bridge structure design. According to the relevant technical specifications, through the design plan, opening report gives the basic data, design the form of superstructure, the corresponding cross-section width of Modular, preset height, beam, cantilever length, section size, etc.
This design uses a post-tensioned priestess’s concrete simply supported T-beam bridge, 35mT calculations span beam is 34.0m, beam length 34.96m, the main beam for the variable cross-section T-beam. Sub grade full width 26m, half of the bridge width 12.75m, on both sides of the width of the rigid barrier 0.5m, with no sidewalks; asphalt concrete pavement 9cm by 10cm cement concrete; Drive number of two-way 4 Drive; car load highway - Ⅰ level. Superstructure forms a 5 beam; beam width modulus B = 2.4m, T precast beam height 2.25m. Specifically include the following components: bridge layout, structural dimensions of various parts of the development; select the calculation structure diagram; dead load of the internal force calculation; Live Load calculation; load combination; prestressed steel beam and the layout of the estimation; reinforcement calculation; prestress loss calculation; strength calculation section; section stress and deformation of checking; lane board calculations.
Use the tools: "CAD" drawing software, "MathType" mathematical formula editor, "Bridge Doctor" calculation software.
Key Words:Post-tensioned, priestesses concrete, Internal force calculation
目 录
摘 要 ..................................................................................................................................... 1
Abstract ........................................................................................................................................ 2
引 言 ...................................................................................................................................... 1
1概况 ........................................................................................................................................... 2
1.1预应力混凝土 ............................................................................................................... 2
1.2预应力混凝土的目的 ................................................................................................... 2
1.3预应力混凝土的分类 ................................................................................................... 2
1.4预应力混凝土的优缺点 ............................................................................................... 2
1.5预应力混凝土桥 ........................................................................................................... 3
1.6预应力混凝土桥特点 ................................................................................................... 3
2设计基本资料及构造布置 ..................................................................................................... 5
2.1设计资料 ........................................................................................................................ 5
2.2主梁间距与主梁片数 ................................................................................................... 5
2.3主梁跨中截面主要尺寸拟订 ...................................................................................... 7
2.4截面几何特性计算 ....................................................................................................... 7
3主梁作用效应计算 ................................................................................................................ 12
3.1永久作用效应计算 ..................................................................................................... 12
3.1.1永久作用集度................................................................................................... 12
3.1.2永久作用效应................................................................................................... 13
3.2可变作用效应计算 ..................................................................................................... 14
3.2.1冲击系数和车道折减系数 .............................................................................. 14
3.2.2计算主梁的荷载横向分布系数 ..................................................................... 15
3.2.3车道荷载的取值 .............................................................................................. 19
3.2.4计算可变作用效应 .......................................................................................... 20
3.3主梁作用效应组合 ..................................................................................................... 25
4预应力钢束的估算及其布置 ............................................................................................... 26
4.1跨中截面钢束的估算和确定 .................................................................................... 26
4.1.1按正常使用极限状态的应力要求估算钢束数 ............................................ 26
4.1.2按承载能力极限状态估算钢束数 ................................................................. 26
4.2预应力钢束布置 ......................................................................................................... 27
4.2.1跨中截面及锚固端截面的钢束位置 ............................................................. 27
4.2.2钢束起弯角和线形的确定 .............................................................................. 30
4.2.3钢束计算 ........................................................................................................... 31
5计算主梁截面几何特性 ....................................................................................................... 35
5.1截面面积及惯矩计算 ................................................................................................. 35
5.1.1净截面几何特性计算 ...................................................................................... 35
5.1.2.换算截面几何特性计算 ............................................................................... 35
5.2截面静矩计算 ............................................................................................................. 36
5.3截面几何特性汇总 ..................................................................................................... 38
6钢束预应力损失计算 ........................................................................................................... 41
6.1预应力钢束与管道壁之间的摩擦引起的预应力损失 ........................................... 41
6.2由锚具变形、钢束回缩引起的预应力损失 ........................................................... 42
6.3混凝土弹性压缩引起的预应力损失 ........................................................................ 43
6.4由钢束应力松弛引起的预应力损失 ........................................................................ 44
6.5混凝土收缩和徐变引起的预应力损失 .................................................................... 44
6.5.1徐变系数和收缩应变的终极值计算 ............................................................. 45
6.5.2计算?l6 ............................................................................................................. 45
篇二:35米预应力简支T型梁桥毕业设计
摘 要
混凝土简支T形梁,具有外形简单,制造方便,结构受力合理,主梁高跨比小,横向借助横隔梁联结,结构整体性好,桥梁下部结构尺寸小和桥型美观等优点,目前在桥梁工程中应用非常广泛。
本次毕业设计为一级公路桥设计,桥梁分为主桥和引桥,引桥主梁用混凝土简支T形梁,主桥主梁选用了后张法预应力混凝土简支T形梁。
结构设计,设计的主要内容有:拟定截面尺寸;计算控制截面的设计内力及其相应的组合值;估算预应力钢筋的数量并对其进行布置;计算主梁截面的几何特征值;计算预应力损失值;正截面和斜截面的承载力复核;正常使用极限状态下构件抗裂性及变形验算;持久状态下和短暂状态下构件截面应力验算。接着进行了简单的施工方法设计,包括施工前的准备,主要分项工程的施工方法设计,冬季和雨季的施工安排以及施工过程中的环境保护措施等。
关键词:T形梁;方案比选;结构设计;预应力;设计计算;施工设计
Abstract
This is designed according to the requirements of the road rules and regulations, to lvliang pangquang ditch nature simply-supported bridge design. Based on the tenet of "safety, economy, beautiful and practical, and the principle of" eight aspects of design and construction, this design choices partial prestressed concrete beam bridge for scheme design。
In the design of the bridge, the upper structure calculation emphatically analyses the bridge in the use of engineering zhongheng load and live load, the force of gravity coefficient and the overall volume, set in the load calculation of internal force. Using lever principle, eccentric-pressed method live load transverse distribution coefficient, and using the maximum load method of live load load.
The beams of the calculation, the steel, and the pre-stress loss of prestressed girder and phase of the section of strength and deformation calculating anchorage zone, and local strength calculation and theoretical calculation. The structure based on the double bored pile pier, using slab rubber bearings, and on the piers and pile foundation were calculated and checked. This design all design drawings adopt cad drawing, computer files, typesetting, printing and paper
Keywords: Partial prestressed concrete; The beam bridge;Bored piles;Tapered anchor
目 录
1 引桥计算............................................................... 4
1.1 设计资料 ......(转载自:www.xiaocaOfaNWen.com 小草 范 文 网:35米梁毕业设计)..................................................... 5
1.2主梁的计算 .......................................................... 6
1.2.1 主梁的荷载横向分布系数 .......................................... 6
1.2.2 梁端剪力横向分布系数计算(按杠杆法) ........................... 10
1.3作用效应计算 ....................................................... 11
1.3.1永久作用效应 .................................................... 11
1.3.2可变作用效应 .................................................... 13
1.4持久状况承载能力极限状态下截面设计、配筋与验算 ..................... 18
1.4.1配置主筋 ........................................................ 18
1.4.2 持久状况截面承载能力极限状态计算 ............................... 19
1.4.3根据斜截面抗剪承载力进行斜筋配置 ................................ 19
1.4.4箍筋配置 ........................................................ 21
1.4.5斜截面抗剪承载能力验算 .......................................... 22
1.5 持久状况正常使用极限状态下裂缝宽度验算 ............................ 24
1.6 持久状况正常使用极限状态下的挠度验算 .............................. 25
2 主桥计算.............................................................. 27
2.1设计资料 ........................................................... 27
2.2 横截面布置 ....................................................... 27
2.2.1主梁间距与主梁片数 .............................................. 27
2.2.2主梁跨中截面主要尺寸 ............................................ 28
2.2.3 检验截面效率指标 ............................................... 29
2.2.4 横截面沿跨长变化 ............................................... 30
2.3永久作用效应计算 ................................................... 31
2.3.1永久作用集度 .................................................... 31
2.3.2 永久作用效应 ................................................... 32
2.3.3 可变作用效应计算(修正刚性横梁法) ............................. 33
2.3.4 主梁作用效应组合 ............................................... 40
2.4预应力钢束的估算及其布置 ........................................... 41
2.4.1 跨中截面钢筋的估算和确定 ....................................... 41
2.5 主梁截面几何特性计算 .............................................. 45
2.6 钢束预应力损失估算 ................................................ 46
2.6.1 预应力钢筋张拉(锚下)控制应力?con ............................. 46
2.6.2 钢束应力损失 ................................................... 47
2.6.3锚具变形、钢丝回缩引起的应力损失(?l2) ........................... 48
2.6.4预应力钢筋分批张拉时混凝土弹性压缩引起的应力损失(?l4) ........... 49
2.6.5钢筋松弛引起的预应力损失(?l5) ................................... 50
2.6.6 混凝土收缩、徐变引起的损失(?l6) ................................. 50
2.7 主梁截面承载能力与应力验算 ........................................ 52
2.7.1持久状况截面承载能力极限状态正截面承载能力计算 .................. 52
2.7.2 应力验算 ....................................................... 54
2.8 抗裂性验算 ........................................................ 59
2.8.1 作用短期效应组合作用下的正截面抗裂验算 ......................... 59
2.8.2 作用短期效应组合作用下的斜截面抗裂验算 ......................... 59
2.9主梁变形(挠度)计算 ............................................... 60
2.9.1 荷载短期效应组合下主梁挠度验算 ................................. 61
2.9.2 预加应力引起的上拱度计算 ....................................... 61
2.9.3 预拱度的设置 ................................................... 62
2.9.4锚固区局部承压计算 .............................................. 62
2.10支座计算 .......................................................... 63
2.10.1选定支座的平面尺寸 ............................................. 63
2.10.2 确定支座的厚度 ................................................ 64
2.10.3 验算支座的偏转 ................................................ 64
2.10.4 验算支座的抗滑稳定性 .......................................... 65
3钻孔灌注桩、单排双柱式桥墩的计算 ...................................... 66
3.1设计资料 ........................................................... 66
3.2 盖梁计算 .......................................................... 66
3.2.1 荷载计算 ....................................................... 66
3.2.2 可变荷载计算 ................................................... 68
3.2.3内力计算 ........................................................ 74
3.2.4截面配筋设计与承载力校核 ........................................ 76
3.3桥墩墩柱设计 ....................................................... 77
3.3.1 荷载计算 ....................................................... 77
3.3.2 截面配筋计算及应力验算 ......................................... 80
3.4 钻孔桩计算 ........................................................ 81
3.4.1荷载计算 ........................................................ 81
3.4.2桩长计算 ........................................................ 83
3.4.3 桩的内力计算(m法) ............................................ 83
3.4.4 桩身截面配筋与承载力验算 ....................................... 85
3.4.5墩顶纵向水平位移验算 ............................................ 86
参考文献................................................................ 89
致谢.................................................................... 90
1 引桥计算
1.1 设计资料
(1) 桥面净空
净—7.5m + 2×1.0m人行道。
(2) 主梁跨径及全长
标准跨径:lb=16.00m (墩中心距离);
计算跨径:l=15.50m(支座中心距离);
主梁全长:l全=15.96m (主梁预制长度)。
(3) 设计荷载
公路—Ⅰ级。
由于该桥处于人群密集的城区,所以人群荷载取3kN/m2。
(4) 材料
钢筋:主筋用HRB335钢筋,其他选用R235钢筋; 混凝土:标号C30。
(5) 计算方法
极限状态法。
(6) 结构尺寸
如图 1- 1所示,全断面五片主梁,设五根横梁。
9cm
%%
图 1- 1 (尺寸单位:mm)
(7) 设计依据
《公路桥涵设计通用规范》(JTG D60—2004),简称《桥规》;
篇三:35米T梁设计
摘 要
本次课程设计的题目是永青桥上部结构设计与计算。
本设计采用装配式预应力混凝土T型梁桥,跨径布置为35m,主梁为变截面T
型梁,跨中梁高为2.0m,横隔梁高1.65m。
本文主要阐述了该桥的设计和计算过程,对主梁进行总体结构设计,然后对上
部结构进行内力、配筋计算,再进行强度、应力及变形验算。具体包括以下几个
部分:
1. 桥型布置,结构各部分尺寸拟定;
2. 选取计算结构简图;
3. 恒载内力计算;
4. 活载内力计算;
5. 荷载组合;
6. 配筋计算;
7. 预应力损失计算;
8. 截面强度验算;
9. 截面应力及变形验算;
关 键 词:预应力混凝土;T型简支梁桥;尺寸拟定;上部结构
目 录
一、 设计资料 .......................................................................................................................................... 3
二、 主梁内力计算(G-M法): ............................................................................................................... 4
2.1几何特性计算 ................................................................................................................................. 4
2.2横隔梁抗弯惯矩 ............................................................................................................................. 5
2.3计算两个主横隔梁影响线纵坐标值 ............................................................................................. 7
2.4计算各梁的横向分布系数 ............................................................................................................. 9
三、 梁端剪力横向分布系数计算(杠杆原理法) ............................................................................ 10
3.1绘制1、2、3号梁的作用横向分布系数 ................................................................................... 10
3.2恒载内力计算 ............................................................................................................................... 11
3.3活载内力计算 ............................................................................................................................... 13
3.4计算公路一级车辆作用的跨中弯矩: ....................................................................................... 13
3.5计算人群作用跨中弯矩 ............................................................................................................... 14
3.6计算跨中截面车道活载最大剪力 ............................................................................................... 14
3.7计算支点截面人群荷载最大剪力 ............................................................................................... 15
四、 主梁内力组合及弯矩包络图 ........................................................................................................ 16
五、 主梁配筋 ........................................................................................................................................ 18
5.1主梁钢筋配置 ............................................................................................................................... 19
5.2主梁截面几何特性计算 ............................................................................................................... 23
5.3钢束预应力损失估算 ................................................................................................................... 24
六、 持久状况截面承载能力极限状态计算 ........................................................................................ 30
6.1正截面承载能力计算 ................................................................................................................... 30
6.2斜截面承载力计算 ....................................................................................................................... 31
6.3应力验算 ....................................................................................................................................... 32
6.4抗裂性验算 ................................................................................................................................... 34
6.5短期效应组合作用下的斜截面抗裂验算 ................................................................................... 35
6.6荷载短期效应组合下主梁挠度验算 ........................................................................................... 37
七、 行车道板计算 ................................................................................................................................ 38
7.1永久作用及其内力: ................................................................................................................... 38
7.2车辆作用产生的内力 ................................................................................................................... 38
7.3作用组合 ....................................................................................................................................... 39
八、 横隔梁计算(G-M法) ................................................................................................................. 39
参考文献 .................................................................................................................................................. 41
致 谢 ...................................................................................................................................................... 42
装配式预应力混凝土简支T型梁桥设计与计算
一、 设计资料
1.永青桥:上部结构为钢筋凝土简支T梁;下部结构为桩柱式钻孔灌注桩基础
桥梁跨径:
标准跨径:Lb=35m
主梁长度:L全=34.96m
计算跨径:L=34.50m
2.设计标准:
1)设计作用:公路I级 、人群作用3.5kN/m2
2)桥上净空:净—12+2×1.5m=15m
3.材料:
混凝土:T梁采用C50;盖梁采用C30;柱采用C25;
基桩、承台及台身采用C25
钢筋混凝土容重均采用γ=25kN/m3。
4. 施工工艺
后张法部分预应力施工,采用内径70mm外径77mm的预埋波纹管和夹片锚
具。预应力钢筋采用《公路钢筋混凝土及预应力混凝土桥涵设计规范》(JTC D62
——2004)的?s15.2钢绞线,fpk?1860Mpa。
5. 设计依据及参考资料
《公路工程技术标准》(JTG B01-2003)
《公路桥涵设计通用规范》(JTG D60-2004)
《公路钢筋混凝土及预应力混凝土桥涵设计规范》(JTG D62-2004)
《公路桥涵设计手册》——基本资料、梁桥(上)
《结构设计原理》
《桥梁工程》
《结构力学》
6. 设计内容
1.桥型:装配式钢筋混凝土简支T型梁桥
2.主梁布置:
主梁间距: 2.22m 翼板宽:2.18m 主梁片数:6片梁肋宽:0.18m 梁高:2m
主梁横断面尺寸
图1-1 主梁横截面尺寸(单位:mm)
主梁横向布置
图1-2 主梁横截面布置(单位:mm)
主梁纵断面布置
图1-3 主梁纵截面尺寸(单位:mm)
二、 主梁内力计算(G-M法):
跨中作用弯矩横向分布系数计算( G-M法)
2.1几何特性计算
主梁抗弯刚矩计算:
求主梁截面形心位置ax
10?22?16cm由 yc翼板平均厚度:h?2
则: ?Aiyi?i?1n?i?1 Ai
16200?453518?506.8(220?18)?16??(200?45)?18??50?35???10?22222ax?(220?18)?16?(200?45)?18??10?50?352
?33.76cm
主梁抗弯惯性矩计算:
I1162133x?(220?18)?16?(220?18)?16(33.76?)??18?(200?45)?200?4512318?(200?45)(?33.76)??50?(6.8?35)?6.8?35250?(6.8?35)?(33.76?)?13787?10cm34
主梁比拟单宽抗弯惯性矩:
13787?103
Jx??62713cm4/cm220
2.2横隔梁抗弯惯矩
横隔梁平均厚h=15cm
横隔梁长度取2根边主梁的轴线距离L=5×220=1100cm
如图2-1所示C/L=418/1100=0.38查表2-5-4得C/L=0.38时,λ/c=0.438 , λ=0.438×418=183cm
求横隔梁界面重心位置ay
ay?2?183?16?16/2?14?165?165/2?29cm
故横隔梁抗弯惯矩为