毕业论文成绩评定表
学院: 土木工程学院 学号:20113415529 姓 名 题 目 高世泉 总成绩: 弥河大桥设计 预应力钢筋混凝土板空心板桥是学生毕业后常见的一种桥型,该生选择该桥作为毕业评 阅 人 评 语 设计有一定的实际意义和应用价值,上部结构套用标准图,下部结构采用三柱式墩,重力式桥台,符合构造要求,进行了上部结构计算,下部构造比较粗糙。计算比较正确,图纸偏少;论述比较清晰,文字通顺。图纸比较规范,施工方案内容偏少,学习态度尚好,遵守纪律。设计基本符合规范化要求,是一个较好的设计方案。 评定成绩: 签名: 年 月 日 答 辩 小 组 评 语 答辩成绩: 组长签名: 年 月 日 注:总成绩=指导教师评定成绩(50%)+评阅人评定成绩(20%)+答辩成绩(30%),将总成绩由百分制转换为五级制,填入本表相应位置。
目 录
0 方案比选 .................................................................................................................................................... 1 0.1 桥梁设计原则 ..................................................................................................................................... 1 0.2 桥型方案比选 ..................................................................................................................................... 1 1设计资料 ..................................................................................................................................................... 6 2 构造形式及尺寸选定................................................................................................................................. 6 3 空心板毛截面几何特征计算 ..................................................................................................................... 7 3.1毛截面面积A ...................................................................................................................................... 7 3.2毛截面的重心位置 .............................................................................................................................. 7 4 作用效率计算 ............................................................................................................................................ 9 4.1永久作用效应计算 .............................................................................................................................. 9 4.2可变作用效应计算 ............................................................................................................................ 10 4.3作用效应组合 .................................................................................................................................... 17 5 预应力钢筋数量估算及布置 ................................................................................................................... 19 5.1预应力钢筋数量的估算 .................................................................................................................... 19 5.3普通钢筋数量的估算及布置 ............................................................................................................ 21 6 换算截面几何特性计算........................................................................................................................... 23 6.1换算截面面积 .................................................................................................................................... 23 6.2换算截面重心位置 ............................................................................................................................ 24 6.3换算截面惯性矩I0 ............................................................................................................................ 24 6.4换算截面弹性抵抗矩 ........................................................................................................................ 25 7 承载能力极限状态计算........................................................................................................................... 25 7.1跨中截面正截面抗弯承载力计算 .................................................................................................... 25 7.2斜截面抗剪承载力计算 .................................................................................................................... 25 8 预应力损失计算 ...................................................................................................................................... 29 8.1锚具变形、回缩引起的应力损失σl2 ............................................................................................. 29 8.2加热养护引起的温差损失σl3 ......................................................................................................... 30 8.3预应力钢绞线由于应力松弛引起的预应力损失σl5 ..................................................................... 30 8.4混凝土弹性压缩引起的预应力损失σl4 .......................................................................................... 30 8.5混凝土收缩、徐变引起的预应力损失σl6 ...................................................................................... 31 8.6预应力损失组合 ................................................................................................................................ 34 9 正常使用极限状态计算........................................................................................................................... 34
9.1正截面抗裂性验算 ............................................................................................................................ 35 9.2 斜截面抗裂性验算 ........................................................................................................................... 38 10 变形计算 ................................................................................................................................................ 43 10.1正常使用阶段的挠度计算 .............................................................................................................. 43 10.2预加力引起的反拱度计算及预拱度的设置 .................................................................................. 44 11 持久状态应力验算 ................................................................................................................................. 46 11.2跨中截面预应力钢绞线拉应力?p验算 ....................................................................................... 47 12 短暂状态应力验算................................................................................................................................. 51 12.1跨中截面 .......................................................................................................................................... 51 12.2 l/4截面 ......................................................................................................................................... 52 12.3支点截面 .......................................................................................................................................... 53 13 最小配筋率复核 .................................................................................................................................... 56 14 结束语 .................................................................................................................................................... 57 参考文献: ..................................................................................................................................................... 58 致 谢 .............................................................................................................................................................. 1
弥河大桥设计
高世泉
(土木工程学院,土木工程专业,土木本1105,20113415529)
摘要:预应力混凝土空心板桥在我国桥梁建筑史上具有十分重要的地位,对于中跨径的永久性
桥梁一般都在采用预应力混凝土空心板桥。预应力混凝土空心板桥具有建筑高度小,适用于桥下净空受限制的桥梁。外形简单,制作方便,既便于现场整体浇筑,又便于工厂成批量生产,而且装配式板桥构件质量小,架设方便。从而决定了本设计中桥梁的选择。本文对一个跨径18米的先张法预应力混凝土空心板桥进行了设计计算,并且对主要构件进行了强度承载能力极限状态和正常使用极限状态验算。其中,上部结构的拟定主要参考了桥涵规范以相关范例。利用铰接板法和杠杆原理法求解横向分布系数。并且参考相关算例对空心板进行分组,查横向分布影响线,进而求得横向分布系数。本设计的主要内容包括对空心板的设计与计算,分先后完成了几何尺寸设计,荷载组合计算,钢筋配置及验算,预应力损伤计算,持久和短暂状态应力验算等具体项目,每一
部分都有计算工程。
关键词:预应力,桥梁,规范,影响线
MiHe Bridge Design
Gao Shiquan
(Institute of civil engineering, Civil engineering, Class 5 Grade2011,20113415529)
Abstract: The prestressed concrete hollow slab bridge in our country, have very important position in the history of architecture of the permanent bridge span in are generally in the prestressed concrete hollow slab bridge. Prestressed concrete hollow slab bridge with a small building height, apply to the restricted clearance of bridge under the bridge. Appearance is simple, easy and convenient for field integral casting, and convenient for the factory to mass production, small and precast slab quality components, construction is convenient. Which determines the choices in the design of the bridge.In this paper, a span of 18 meters first tensioning prestressed concrete hollow slab bridge has carried on the design and calculation, and the strength of main component bearing capacity limit state and serviceability limit state. Among them, the upper structure of the main reference for bridge specifications with relevant examples. Using hinged plate method and the lever principle method to solve the transverse distribution coefficient. And relevant reference example for grouping hollow slab, the influence line of transverse distribution of the check, then the lateral distribution coefficient.The main content of this design includes the design and calculation of hollow plate, points successively completed the geometry design, computing load combinations, steel bar configuration and checking calculation of prestressed damage calculation, persistent and transient state stress check and so on specific projects, each part has engineering calculation.
Key words:prestressing force;slab bridge;Specification;Influence line
鲁东大学本科毕业设计
0 方案比选
0.1 桥梁设计原则
1.适用性
桥上应保证车辆和人群的安全畅通,并应满足将来交通量增长的需要。桥下应满足泄洪、安全通航或通车等要求。建成的桥梁应保证使用年限,并便于检查和维修[1]。 2.舒适与安全性
现代桥梁设计越来越强调舒适度,要控制桥梁的竖向与横向振幅,避免车辆在桥上振动与冲击。整个桥跨结构及各部分构件,在制造、运输、安装和使用过程中应具有足够的强度、刚度、稳定性和耐久性。 3.经济性
设计的经济性一般应占首位。经济性应综合发展远景及将来的养护和维修等费用。建成的桥梁应保证使用年限,并便于检查和维修。在桥梁规定的使用期限内的经常维修费用的多少需要考虑,例如钢桥的油漆,高强螺栓的检修,钢筋混凝土的裂缝维修。又如采用建筑高度大的桥梁,常带来引道或引桥的加长,除了要增加运营费以外,还影响交通安全,此外,运营使用时质量也是一个不容忽视的问题,例如桥梁的刚度要大,桥面宜连续,震动要小,视线要宽敞等。 4.先进性
桥梁设计应体现现代桥梁建设的新技术。应便于制造和架设,应尽量采用先进工艺技术和施工机械、设备,以利于减少劳动强度,加快施工进度,保证工程质量和施工安全。 5.美观
一座桥梁,尤其是坐落于城市的桥梁应具有优美的外形,应与周围的景致相协调。合理的结构布局和轮廓是美观的主要因素,决不应把美观片面的理解为豪华的装饰。我国基本建设的方针是“经济、适用和在可能的条件下注意美观”大量的公路桥与铁路桥设计时应遵守这一要求。设计时应考虑结构的选型与当地景物的协调,桥梁轮廓尺寸应比例匀称,各部结构要协调平衡,对于梁式桥避免头重脚轻的肥梁瘦柱外型。跨线立交桥,主梁或上部结构与墩台以纤细为美,切忌桥台侧墙长大既耗费圬工,又碍观瞻,又妨碍视线.影响车速,这在高速公路中更显得必要,桥墩外型亦可作多种变化,风景区的桥梁外表,应注意美观。
0.2 桥型方案比选
0.2.1 方案初选(拟定桥型图式)
根据桥梁设计原则,从安全、功能、经济、美观、施工、占地与工期等多方面比选,初步确定梁桥、拱桥、刚架桥三种桥梁形式,见图0.1。
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