体外预应力加固简支梁桥抗弯性能数值分析研究
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摘要
体外预应力加固技术是后张预应力体系的重要分支之一,在桥梁加固中起着非常重要的角色。体外预应力加固技术是先在梁体上固定钢锚箱,然后通过钢锚箱张拉预应力筋,并固定于钢锚箱上,根据需要人为的引入某一数值与分布的内应力,改变了混凝土内部的应力状况,用以部分或全部抵消外荷载应力的一种混凝土加固方法,属于主动加固方法。
本文利用大型通用计算软件ANSYS,以辽宁省辽阳市朴沟桥采用体外预应力进行加固改造和提高荷载等级为研究背景,建立了体外预应力混凝土结构分析的有限元模型,考虑了几何和材料非线性特性,并将试验数据与本文有限元分析数据进行了对比;分析了加固前后T型桥在汽车荷载作用下抗弯性能,评价了加固效果,并且分析了预应力度、预应力筋面积、转向块的高度及体外预应力筋锚固点位置等参数对结构受力及极限承载力的影响。
朴沟桥加固分析表明采用体外预应力加固可以有效改善桥梁的抗弯工作性能、提高桥梁的极限承载能力。随着体外预应力筋有效预应力的增加,梁体混凝土的开裂荷载提高,所加固桥的刚度、结构的破坏荷载都得到不同程度的提高;在保持总张拉力不变的前提下,随着体外预应力筋面积的增大,梁体的极限承载力提高;转向块的高度对跨中水平段体外预应力筋合力作用点到原梁换算截面重心轴的距离有影响,转向块的高度越大跨中水平段体外预应力筋合力作用点到原梁换算截面重心轴的距离越大,在同等荷载作用下梁体的挠度变小,但是转向块高度比较小时对梁的抗弯极限承载力影响不大;体外预应力筋在钢锚箱上的锚固点到梁体翼缘板底部的垂直距离越近,缩短了体外预应力筋在钢锚箱的锚固点到原梁换算截面重心轴的距离,虽然梁体的挠度变化不是很大,但是当梁达到破坏时,其极限荷载增加。
External prestressing technique which is one important branch of post-tensioned prestressmg system takes great part of reinforcing bridge. External prestressing technique is a method of reinforcing concrete which hauls prestressing reinforcing steel, fixes prestressing reinforcing steel bar onto the steel anchor box to import(introduce) a man-made numerical value of distributing inner stress in need and changes the stress of concrete in order to partly or fully counteract the stress which is begeted by outer load.It belongs to initiative reinforcing method.
This article's background is the Pu Gou bridge of Liaoyang in Liaoning Province which was strengthened by external prestressing technique to upgrade the load grade. The finite element models of nonlinear analysis of external prestressing concrete bridge is finished by the finite element analytical software of ANSYS. Also nonlinear effects of material, geometry and boundary conditions are taken into account in these models.
For analyzing the resisting-bend behaviors of inforced T beam bridge contrast against the initial bridge uninforced and evaluating enforcing impact, datas produded by finite element models is contrasted with a great number of measureed datas. The effectiveness of the location of steel anchor box and deviaror, effective prestressing force, the area of prestressing tendon and the position of load on the behaviors and the ultimate loading capacity of T-beam bridge have been fully discussed.
Results of analysis indicate external prestressing technique can improve the behaviors of the T-beam bridge and increase the ultimate loading capacity of bridge.The actual prestressing and area of prestressing reinforcing steel bar have great influence on bridge.With the actual prestressing and area increasing, the ultimate loading capacity of bridge will also be argumented.The height of the deviator can change the offsetting of bridge.If the height is heightened,the carrying capacity of bridge is also argumented.The setting location of prestressing reinforcing steel bar impacts the ultimate loading capacity of bridge.
本文利用大型通用计算软件ANSYS,以辽宁省辽阳市朴沟桥采用体外预应力进行加固改造和提高荷载等级为研究背景,建立了体外预应力混凝土结构分析的有限元模型,考虑了几何和材料非线性特性,并将试验数据与本文有限元分析数据进行了对比;分析了加固前后T型桥在汽车荷载作用下抗弯性能,评价了加固效果,并且分析了预应力度、预应力筋面积、转向块的高度及体外预应力筋锚固点位置等参数对结构受力及极限承载力的影响。
朴沟桥加固分析表明采用体外预应力加固可以有效改善桥梁的抗弯工作性能、提高桥梁的极限承载能力。随着体外预应力筋有效预应力的增加,梁体混凝土的开裂荷载提高,所加固桥的刚度、结构的破坏荷载都得到不同程度的提高;在保持总张拉力不变的前提下,随着体外预应力筋面积的增大,梁体的极限承载力提高;转向块的高度对跨中水平段体外预应力筋合力作用点到原梁换算截面重心轴的距离有影响,转向块的高度越大跨中水平段体外预应力筋合力作用点到原梁换算截面重心轴的距离越大,在同等荷载作用下梁体的挠度变小,但是转向块高度比较小时对梁的抗弯极限承载力影响不大;体外预应力筋在钢锚箱上的锚固点到梁体翼缘板底部的垂直距离越近,缩短了体外预应力筋在钢锚箱的锚固点到原梁换算截面重心轴的距离,虽然梁体的挠度变化不是很大,但是当梁达到破坏时,其极限荷载增加。
External prestressing technique which is one important branch of post-tensioned prestressmg system takes great part of reinforcing bridge. External prestressing technique is a method of reinforcing concrete which hauls prestressing reinforcing steel, fixes prestressing reinforcing steel bar onto the steel anchor box to import(introduce) a man-made numerical value of distributing inner stress in need and changes the stress of concrete in order to partly or fully counteract the stress which is begeted by outer load.It belongs to initiative reinforcing method.
This article's background is the Pu Gou bridge of Liaoyang in Liaoning Province which was strengthened by external prestressing technique to upgrade the load grade. The finite element models of nonlinear analysis of external prestressing concrete bridge is finished by the finite element analytical software of ANSYS. Also nonlinear effects of material, geometry and boundary conditions are taken into account in these models.
For analyzing the resisting-bend behaviors of inforced T beam bridge contrast against the initial bridge uninforced and evaluating enforcing impact, datas produded by finite element models is contrasted with a great number of measureed datas. The effectiveness of the location of steel anchor box and deviaror, effective prestressing force, the area of prestressing tendon and the position of load on the behaviors and the ultimate loading capacity of T-beam bridge have been fully discussed.
Results of analysis indicate external prestressing technique can improve the behaviors of the T-beam bridge and increase the ultimate loading capacity of bridge.The actual prestressing and area of prestressing reinforcing steel bar have great influence on bridge.With the actual prestressing and area increasing, the ultimate loading capacity of bridge will also be argumented.The height of the deviator can change the offsetting of bridge.If the height is heightened,the carrying capacity of bridge is also argumented.The setting location of prestressing reinforcing steel bar impacts the ultimate loading capacity of bridge.
引文
1.陈开利,王邦楣,林亚超.桥梁工程鉴定与加固手册[M],北京:人民交通出版社,2005
2.王宗林.体外预应力混凝土桥梁极限状态分析[D],哈尔滨:哈尔滨工业大学,2001
3.周履.无粘结力筋与体外力筋预应力混凝土桥梁的发展历程与现状[J],桥梁建设,1997,92(3):1-11
4.卢树圣.现代预应力混凝土桥梁结构的新发展[J],桥梁建设,1996(1):41~48
5.冉一元.体外力筋预应力混凝土桥梁技术的发展[J],桥梁建设,1992,(4):40~50
6.张小兵.体外预应力[J],重庆交通学院学报,1985,14(3):13~18
7.黄侨.公路钢筋混凝土简支梁桥的体外预应力加固技术[M],北京:人民交通出版社,1998:80~98
8. T.M. Gllaway. Design Features and Prestressing Aspects of Long Key Bridge. PCI Journal,1980,25 (6), Nov.-Dec.:84~96
9. Jean Muller. Construction of Long Key Bridge. PCI Journal,1985,30 (6), Nov.-Dec.:97~111
10.夏永明.无粘结预应力结构分析初探—兼介绍云阳大桥[J],中国土木工程学会市政工程学会第三次全国城市桥梁学术会议论文集,1991:280~292
11.林增官.预应力混凝土新结构在福州洪塘大桥上的应用[J],’92全国桥梁结构学术大会论文集,1992:547~555
12.王逸,杜拱辰,刘永颐.跨中集中荷载下部分预应力梁无粘结筋极限应力的研究[J],建筑结构学报,1991,12(6):42~51
13.胡贵琼,文武松.体外预应力混凝土桥的抗弯强度[J],国外桥梁,1997,92(3):19~26
14.陈爱萍,张玲芳.无粘结后张法极限应力的统计分析[J],国外桥梁,2000,102(1):54~59
15. Gonzalo RAMOS, Angel C. APARICIO. Nonlinear Analysis of Externally Prestressed Concrete Bridges. AFPC External Prestressing in Structures, France, 1993:175~184
16. M. E. Kreger, G. L. Fenves, K. C. El-Habr. Finite Element Analysis of Externally Post-Tensioned Segmental Box Girder Construction. External Prestressing in Bridges, ACI Special Publication, American Concrete Institute, Detroit,1990: 390-407
17. J. Muller, Y. Gauthier. Ultimate Behavior of Precast Segmental Box Girders with External Tendons. External Prestressing in Bridges, ACI Special Publication, American Concrete Institute, Detroit,1990:355-373
18. Bernard FOURE, Long Hung HOANG, Paulo REZENDE MARTINS, Nilson C. MENEZES. Flexural Behavior of Externally Prestressed Concrete Beams, Monolithic or Made of Precast Segments. AFPC External Prestressing in Structures, France,1993:163~174
19.杜拱辰.现代预应力混凝土结构[M],北京:中国建筑工业出版社,1986:199~231
20.房贞政.无粘结与部分预应力结构[M],北京:人民交通出版社,1999:104~153
21.中华人民共和国行业标准.<无粘结预应力混凝土结构技术规程>(JGJ 92—93)[M],北京:中国计划出版社,1993.
22.宋建永,张树仁,王彤,吕建鸣.波纹钢腹板体外预应力组合梁弯曲性能分析及试验研究[J],土木工程学报,2004.11,37(11):50-55
23.张树仁,王宗林.桥梁病害诊断与改造加固设计[M],北京:人民交通出版社,2006,142-158
24.王彤,王宗林,张树仁.体外预应力混凝土简支梁全过程分析[J],南京理工大学学报,2003.6,27(3):318-322
25.朱伯芳.有限元法原理与应用[M],北京:中国水利水电出版社,2000
26.郝文华.ANSYS土木工程应用实例[M],北京:中国水利水电出版社,2005
27.贾志杰.新型预制螺旋桩受力特性数值分析研究[D],沈阳:东北大学,2005,18-39
28.颜云辉,谢里阳,韩清凯.结构分析中的有限元法及应用[M],沈阳:东北大学出版社,2000
29.张洪武,关振群,李云鹏,顾元宪.有限元分析与CAE技术基础[M],北京:清华大学出版社,2002,11-175
30.徐道盛,徐兴.非线性有限元及程序[M],浙江:浙江大学出版社:2004.8,6-34
31.龚曙光,谢桂兰.ANSYS操作命令与参数化编程[M],北京:机械工业出版社, 2000
32.博弈创作室.APDL参数化有限元参数分析技术及其应用实例[M],北京:中国水利水电出版社,2004
33.郝文化.ANSYS土木工程应用实例[M],北京:中国水利水电出版社,2005:75-85
34.江见鲸.钢筋混凝土结构非线性有限元分析[M],西安:陕西科学技术出版社,1998
35. ANSYS. Release 8.0 Documentation, Structural Analysis Guide
36.董宏英.带暗支撑双肢剪力墙抗震性能试验及设计理论研究[D],北京:北京工业大学,2002
37.杨勇.型钢混凝土粘结滑移基本理论及应用研究[D],西安:西安建筑科技大学,2003
38.张子潇,叶列平,陆新征.U型FRP加固钢筋混凝土梁受剪剥离性能的有限元分析[J],工程力学,2005,22(4):155-162
39.江见鲸,陆新征,叶列平.混凝土结构有限元分析[M],北京:清华大学出版社,2005
40.陆新征,江见鲸.用ANSYS SOLID65单元分析混凝土组合构件复杂应力[J],建筑结构,2003,33(6):22-24
41.孙治国.基于ANSYS的桥梁极限承载力和滞回特性研究[D],大连:大连理工大学,2006.6:1-16
42.华孝良,徐光辉.桥梁结构非线性分析[M],沈阳:冶金工业出版社,2000
43.王明福.应用数值计算方法[M],沈阳:东北大学出版社,1987
44.张铁.数值分析[M],北京:冶金工业出版社,2000
45.贾金刚.大伙房水库引水隧道洞围岩稳定与施工过程数值计算研究[D],沈阳:东北大学,2005
46.房贞政.预应力结构理论与应用[M],北京:中国建筑工业出版社,2005,33-41
47.李德慧.体外预应力混凝土简支梁受弯性能研究及极限承载力分析[D],长沙:长沙理工大学,2004,47-51
48.张雪梅.体外预应力加固钢筋混凝土桥梁的静动力性能研究[D],北京:北京工业大学,2006.5,45-57
49.朱小辉.体外预应力加固T梁桥的受力性能分析研究[D],浙江:浙江大学,2007.5,104-106
50.王宗林,王彤等.体外预应力混凝土简支梁极限强度分析[J],哈尔滨建筑大学学报,2001,34(1):114-118
51.朱小辉.体外预应力加固T梁桥的受力性能分析研究[D],浙江:浙江大学,2007.5,104-106
2.王宗林.体外预应力混凝土桥梁极限状态分析[D],哈尔滨:哈尔滨工业大学,2001
3.周履.无粘结力筋与体外力筋预应力混凝土桥梁的发展历程与现状[J],桥梁建设,1997,92(3):1-11
4.卢树圣.现代预应力混凝土桥梁结构的新发展[J],桥梁建设,1996(1):41~48
5.冉一元.体外力筋预应力混凝土桥梁技术的发展[J],桥梁建设,1992,(4):40~50
6.张小兵.体外预应力[J],重庆交通学院学报,1985,14(3):13~18
7.黄侨.公路钢筋混凝土简支梁桥的体外预应力加固技术[M],北京:人民交通出版社,1998:80~98
8. T.M. Gllaway. Design Features and Prestressing Aspects of Long Key Bridge. PCI Journal,1980,25 (6), Nov.-Dec.:84~96
9. Jean Muller. Construction of Long Key Bridge. PCI Journal,1985,30 (6), Nov.-Dec.:97~111
10.夏永明.无粘结预应力结构分析初探—兼介绍云阳大桥[J],中国土木工程学会市政工程学会第三次全国城市桥梁学术会议论文集,1991:280~292
11.林增官.预应力混凝土新结构在福州洪塘大桥上的应用[J],’92全国桥梁结构学术大会论文集,1992:547~555
12.王逸,杜拱辰,刘永颐.跨中集中荷载下部分预应力梁无粘结筋极限应力的研究[J],建筑结构学报,1991,12(6):42~51
13.胡贵琼,文武松.体外预应力混凝土桥的抗弯强度[J],国外桥梁,1997,92(3):19~26
14.陈爱萍,张玲芳.无粘结后张法极限应力的统计分析[J],国外桥梁,2000,102(1):54~59
15. Gonzalo RAMOS, Angel C. APARICIO. Nonlinear Analysis of Externally Prestressed Concrete Bridges. AFPC External Prestressing in Structures, France, 1993:175~184
16. M. E. Kreger, G. L. Fenves, K. C. El-Habr. Finite Element Analysis of Externally Post-Tensioned Segmental Box Girder Construction. External Prestressing in Bridges, ACI Special Publication, American Concrete Institute, Detroit,1990: 390-407
17. J. Muller, Y. Gauthier. Ultimate Behavior of Precast Segmental Box Girders with External Tendons. External Prestressing in Bridges, ACI Special Publication, American Concrete Institute, Detroit,1990:355-373
18. Bernard FOURE, Long Hung HOANG, Paulo REZENDE MARTINS, Nilson C. MENEZES. Flexural Behavior of Externally Prestressed Concrete Beams, Monolithic or Made of Precast Segments. AFPC External Prestressing in Structures, France,1993:163~174
19.杜拱辰.现代预应力混凝土结构[M],北京:中国建筑工业出版社,1986:199~231
20.房贞政.无粘结与部分预应力结构[M],北京:人民交通出版社,1999:104~153
21.中华人民共和国行业标准.<无粘结预应力混凝土结构技术规程>(JGJ 92—93)[M],北京:中国计划出版社,1993.
22.宋建永,张树仁,王彤,吕建鸣.波纹钢腹板体外预应力组合梁弯曲性能分析及试验研究[J],土木工程学报,2004.11,37(11):50-55
23.张树仁,王宗林.桥梁病害诊断与改造加固设计[M],北京:人民交通出版社,2006,142-158
24.王彤,王宗林,张树仁.体外预应力混凝土简支梁全过程分析[J],南京理工大学学报,2003.6,27(3):318-322
25.朱伯芳.有限元法原理与应用[M],北京:中国水利水电出版社,2000
26.郝文华.ANSYS土木工程应用实例[M],北京:中国水利水电出版社,2005
27.贾志杰.新型预制螺旋桩受力特性数值分析研究[D],沈阳:东北大学,2005,18-39
28.颜云辉,谢里阳,韩清凯.结构分析中的有限元法及应用[M],沈阳:东北大学出版社,2000
29.张洪武,关振群,李云鹏,顾元宪.有限元分析与CAE技术基础[M],北京:清华大学出版社,2002,11-175
30.徐道盛,徐兴.非线性有限元及程序[M],浙江:浙江大学出版社:2004.8,6-34
31.龚曙光,谢桂兰.ANSYS操作命令与参数化编程[M],北京:机械工业出版社, 2000
32.博弈创作室.APDL参数化有限元参数分析技术及其应用实例[M],北京:中国水利水电出版社,2004
33.郝文化.ANSYS土木工程应用实例[M],北京:中国水利水电出版社,2005:75-85
34.江见鲸.钢筋混凝土结构非线性有限元分析[M],西安:陕西科学技术出版社,1998
35. ANSYS. Release 8.0 Documentation, Structural Analysis Guide
36.董宏英.带暗支撑双肢剪力墙抗震性能试验及设计理论研究[D],北京:北京工业大学,2002
37.杨勇.型钢混凝土粘结滑移基本理论及应用研究[D],西安:西安建筑科技大学,2003
38.张子潇,叶列平,陆新征.U型FRP加固钢筋混凝土梁受剪剥离性能的有限元分析[J],工程力学,2005,22(4):155-162
39.江见鲸,陆新征,叶列平.混凝土结构有限元分析[M],北京:清华大学出版社,2005
40.陆新征,江见鲸.用ANSYS SOLID65单元分析混凝土组合构件复杂应力[J],建筑结构,2003,33(6):22-24
41.孙治国.基于ANSYS的桥梁极限承载力和滞回特性研究[D],大连:大连理工大学,2006.6:1-16
42.华孝良,徐光辉.桥梁结构非线性分析[M],沈阳:冶金工业出版社,2000
43.王明福.应用数值计算方法[M],沈阳:东北大学出版社,1987
44.张铁.数值分析[M],北京:冶金工业出版社,2000
45.贾金刚.大伙房水库引水隧道洞围岩稳定与施工过程数值计算研究[D],沈阳:东北大学,2005
46.房贞政.预应力结构理论与应用[M],北京:中国建筑工业出版社,2005,33-41
47.李德慧.体外预应力混凝土简支梁受弯性能研究及极限承载力分析[D],长沙:长沙理工大学,2004,47-51
48.张雪梅.体外预应力加固钢筋混凝土桥梁的静动力性能研究[D],北京:北京工业大学,2006.5,45-57
49.朱小辉.体外预应力加固T梁桥的受力性能分析研究[D],浙江:浙江大学,2007.5,104-106
50.王宗林,王彤等.体外预应力混凝土简支梁极限强度分析[J],哈尔滨建筑大学学报,2001,34(1):114-118
51.朱小辉.体外预应力加固T梁桥的受力性能分析研究[D],浙江:浙江大学,2007.5,104-106