竖向及水平荷载作用下后张预应力框架的试验研究
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摘要
预应力混凝土技术已经在我国土木工程领域中得到越来越广泛的应用。预应力结构因其特殊的性能能显著解决大跨结构中混凝土梁的刚度问题,很好地控制裂缝和挠度问题,并可获得较大的安全储备。预应力混凝土超静定结构,更是以其优越的结构性能备受设计人员的青睐。但是,对于预应力混凝土超静定结构的受力性能,国内外预应力界的认识还普遍不够。例如在对预应力混凝土连续梁和框架的裂缝控制、次弯矩以及结构的塑性内力重分布尤其是弯矩重分布这些问题上还存在着广泛的争论。这些问题没有得到很好的解决,与缺乏系统的试验,尤其是有效的、大型足尺构件试验有很大的关系。对预应力连续梁,近年来重庆建筑大学一做了大量的足尺构件的试验研究,并取得了令人满意的研究结果。而对于预应力框架,目前国内所做的试验研究还较少,已做过的试验也主要是尺寸较小的模型试验,并基本仅考虑了竖向荷载的作用。为了对预应力框架的受力性能有一个全面深刻的认识,重庆建筑大学又制作了四榀接近足尺的单层单跨预应力框架,并对其中两榀同时施加水平荷载和竖向荷载进行了试验研究。对这样的大尺寸构件,该试验还开创性的利用试验验装置进行框架柱底嵌固进行模拟,并测出了柱底反力。
本文针对两榀同时施加有水平荷载和竖向荷载的预应力框架,对其加载过程中的裂缝发展、结构的塑性弯矩重分布进行了探讨和研究。文中在参考重庆建筑大学多年研究成果的基础上,通过研究四榀预应力框架梁的裂缝发展情况,推荐了一套了实际结构工程设计中方便的裂缝控制方法——以名义拉应力γftk控制短期荷载及长期荷载作用下预应力梁的裂缝要求。本文重点研究了有水平荷载和竖向荷载同时作用下的单层单跨预应力框架的弯矩重分布问题。分析了预应力框架中的次弯矩对弯矩重分布的影响以及水平荷载作用对弯矩重分布的影响。最后,在综合考虑各因素的影响的情况下提出了一套弯矩调幅公式,对预应力框架的工程结构设计有一定的参考价值。
The technique of prestressed concrete is already to get in our civil engineering realm more and more extensive application. Because of its special function the prestressed concrete shows the greatly advantages to resolve the lacking of stiffness of concrete beam, to nicely control the development of the cracks and deflection of beam and acquire bigger safety store in long span construction. For the statically indeterminate structure of pestressed concrete, it is especially have the favor of the designers by its superiority. However now days the cognition about the behavior of such structure under loads is not enough for the realm of prestressed concrete all of the word.
For example still the arguments exist about the cracking controlling, the behavior of secondary moment and the re-distribution of internal forces, especially for the moment, of the prestressed concrete continues beam or frame. To some degree those existing problems is due to the lacking of plenty of experiments with enough-size members that can reflect the practical structures effectively. To the prestressed concrete continues beam, considerable experiments have been finished and nice achievements have been acquired at Chongqing JianZhu University (renamed Chongqing University since the year 2000) in these years. But few of experiments have been finished about the prestressed concrete frame. And the finished experiments were mainly based on members with the shorten size and the vertical loads. For the comprehensive cognition to the prestressed concrete frame, four monolayer and monospan frames is built, two of which are loaded only vertically and the other two are loaded vertically and horizontally at the same time. In the experiments the fixed supports of the bottom of the columns are simulated creatively and the reaction of forces is tested.
In this article the development of the cracks and the moment redistribution are discussed based on the two frames which are loaded vertically and horizontally at the same time. On the base of the research about the prestressed concrete structures at Chongqing JianZhu University, a convenient and practical way to control the cracks is introduced in the pages, which is called the method of nominal tension stress that control the width of cracks by the nominal tension stress γftk under the working loads and the limited loads. The discussion is focused on the moment redistribution of the frames, the effects of the secondary moment and horizontal loads under the loads vertical and horizontal at the same time. In conclusion, a formulae about the moment distribution is introduced on the consideration of several factors, which is suggestive for the designing of practical prestressed concrete structures.
本文针对两榀同时施加有水平荷载和竖向荷载的预应力框架,对其加载过程中的裂缝发展、结构的塑性弯矩重分布进行了探讨和研究。文中在参考重庆建筑大学多年研究成果的基础上,通过研究四榀预应力框架梁的裂缝发展情况,推荐了一套了实际结构工程设计中方便的裂缝控制方法——以名义拉应力γftk控制短期荷载及长期荷载作用下预应力梁的裂缝要求。本文重点研究了有水平荷载和竖向荷载同时作用下的单层单跨预应力框架的弯矩重分布问题。分析了预应力框架中的次弯矩对弯矩重分布的影响以及水平荷载作用对弯矩重分布的影响。最后,在综合考虑各因素的影响的情况下提出了一套弯矩调幅公式,对预应力框架的工程结构设计有一定的参考价值。
The technique of prestressed concrete is already to get in our civil engineering realm more and more extensive application. Because of its special function the prestressed concrete shows the greatly advantages to resolve the lacking of stiffness of concrete beam, to nicely control the development of the cracks and deflection of beam and acquire bigger safety store in long span construction. For the statically indeterminate structure of pestressed concrete, it is especially have the favor of the designers by its superiority. However now days the cognition about the behavior of such structure under loads is not enough for the realm of prestressed concrete all of the word.
For example still the arguments exist about the cracking controlling, the behavior of secondary moment and the re-distribution of internal forces, especially for the moment, of the prestressed concrete continues beam or frame. To some degree those existing problems is due to the lacking of plenty of experiments with enough-size members that can reflect the practical structures effectively. To the prestressed concrete continues beam, considerable experiments have been finished and nice achievements have been acquired at Chongqing JianZhu University (renamed Chongqing University since the year 2000) in these years. But few of experiments have been finished about the prestressed concrete frame. And the finished experiments were mainly based on members with the shorten size and the vertical loads. For the comprehensive cognition to the prestressed concrete frame, four monolayer and monospan frames is built, two of which are loaded only vertically and the other two are loaded vertically and horizontally at the same time. In the experiments the fixed supports of the bottom of the columns are simulated creatively and the reaction of forces is tested.
In this article the development of the cracks and the moment redistribution are discussed based on the two frames which are loaded vertically and horizontally at the same time. On the base of the research about the prestressed concrete structures at Chongqing JianZhu University, a convenient and practical way to control the cracks is introduced in the pages, which is called the method of nominal tension stress that control the width of cracks by the nominal tension stress γftk under the working loads and the limited loads. The discussion is focused on the moment redistribution of the frames, the effects of the secondary moment and horizontal loads under the loads vertical and horizontal at the same time. In conclusion, a formulae about the moment distribution is introduced on the consideration of several factors, which is suggestive for the designing of practical prestressed concrete structures.
引文
[1] 杜拱辰编著,现代预应力混凝土结构,北京,中国建筑工业出版社,1988。
[2] 陶学康著,后张预应力混凝土设计手册,北京,中国建筑工业出版社,1996。
[3] T.Y.Lin,N.H.Burns, 路湛沁等译,预应力混凝土结构设计,北京,中国铁道出版社,1983。
[4] H.尼尔森著,姚玲森、沈莲芬合译,预应力混凝土设计,人民交通出版社,1984。
[5] 白生翔,预应力混凝土裂缝控制回顾与综述,中国建筑科学研究院结构研究所,1997。
[6] Building Code Requirement for Structural Concrete(ACI318-95) and Commentary (ACI318R-95).
[7] ACI Committee 318 Building Code Requirement for Reinforced Concrete and Commentary(ACI-89),ACI,Dedroit,1989.
[8] CEB欧洲国际混凝土委员会,中国建筑科学研究院结构所规范室译,1990CEB-FIP模式规范(混凝土结构),1991。
[9] 中国建筑科学研究院结构所规范室译,英国混凝土结构规范(BS8100修订版),1993。
[10] Peter J. Wyche, Judith G. Urenand, Graeme C. Reynolds, Interaction Between Prestress Secondary Moments, Moment Redistribution, and Ductility -A Treatise on the Australian Concrete Codes, ACI Journal, Vol. 89, No.1, January - February 1992.
[11] 张毓澍,有粘结部分预应力陶粒混凝土连续梁次弯矩和内力重分布的试验研究,哈尔滨建筑大学硕士论文,1995。
[12] 简斌,王正霖,白绍良,预应力混凝土连续梁弯矩调幅建议,重庆建筑大学学报,1999,12(2),12-18。
[13] 白生翔,后张预应力混凝土结构构件设计方法中的几个问题,第十届全国混凝土及预应力混凝土学术交流会论文集,1998,71-107。
[14] 预应力混凝土结构抗震设计规程(征求意见稿),《混凝土结构设计规范》国家标准管理组,北京,2001。
[15] 哈尔滨工业大学土木工程学院,超静定预应力混凝土结构塑性设计新模式(一),哈尔滨,2001。
[16] 王正霖等,大跨度预应力次梁楼盖结构体系工程实践和理论研究总报告,重庆建筑大学,1997。
[17] 王正霖等,大跨度预应力次梁楼盖结构体系工程实例,重庆建筑大学,1997。
简斌,王正霖,邬洪,后张预应力混凝土连续梁的试验方法,重庆建筑大学学报,1998,
[18] 20(6),38-43。
[19] 杨建明,陈乾,部分预应力混凝土框架性能试验研究,东南大学学报,1993,23(6),140-143。
[20] 中华人民共和国国家标准,混凝土结构设计规范(GBJ10-89),中国建筑工业出版社,1989。
[21] 华东水利学院工程力学教研室《理论力学》编写组,理论力学,高等教育出版社,1985。
[22] 吴刚,吴京,名义拉应力法在预应力砼结构裂缝控制中的应用,江苏建筑,1996,4,32-36。
[23] 陶学康,关于预应力混凝土的裂缝控制及抗裂设计,建筑科学,1997,3,7-12。
[24] 郑文忠,王英,预应力混凝土结构裂缝控制及验算建议,工业建筑,1999,29(3),9-14.
[25] 李忠诚,罗建兵,李唐宁,预应力混凝土梁裂缝控制及设计方法的研究,建筑结构,2001,31(2)。
[26] 部分预应力混凝土结构设计建议,中国铁道出版社,1985。
[27] 孟少平,吕志涛,徐百川,部分预应力混凝土矩形梁裂缝闭合问题的试验研究,建筑结构学报,1987,5。
[28] 李忠诚,部分预应力混凝土梁裂缝控制及名义拉应力设计方法研究,硕士学位论文,重庆建筑大学,1998。
[29] 孙新敏,跨间竖向荷载作用下后张预应力框架的试验研究,硕士学位论文,重庆大学,2002。
[30] 简斌,对后张有粘结部分预应力混凝土连续梁次内力及内力重分布规律的试验及研究,博士学位论文,重庆建筑大学,1998。
[31] 冯徳刚,无粘结部分预应力混凝土受弯构件短期刚度的试验研究,东北电力学院学报,1996,16(4),36-43。
[32] 滕智明,混凝土结构与砌体结构,中国建筑工业出版社,1995。
[33] Ivan Campbell, Walter Dilger, John Fowler, CPCA Concrete Design Handbook, Chapter10, 1988.
[34] 薛振伟,吕志涛,预应力混凝土超静定结构的设计研究,东南大学学报,1994,24(3),35-39。
[35] 陈平友,后张预应力框架内力重分布的非线性分析,硕士学位论文,重庆大学,2002。
[36] 黄奇壁,部分预应力框架柱对梁内预应力建立的影响分析,江苏建筑,1996,4,34-36。
[37] 张来仪,景瑞,刘铮,结构力学,重庆建筑大学等,中国建筑工业出版社,1997。
[38] 孙训方、方孝淑、关来泰,材料力学,高等教育出版社,1987。
石平府,部分预应力混凝土才静定结构的内力重分布和弯矩调幅,东南大学硕士论文,
[39] 1995。
[40] 沈在康,混凝土结构试验方法新标准应用讲评,中国建筑工业出版社,1991。
[41] 王正霖,简斌,黄英,预应力连续梁极限承载能力试验研究,第十届全国混凝土及预应力混凝土学术交流会论文集,1998。
[42] T.Y.Lin and K.Thornton, Secondary Moment Redistribution in Continuous Prestressed Concrete Beams, PCI Joournal, Vol. 17, No. 1, January 1972.
[43] 吕志涛,孟少平,黄理军,预应力混凝土超静定结构次弯矩及其影响的研究,预应力混凝土结构设计若干问题的研究,东南大学,1996。
[44] R.帕克,T.波利(新西兰),秦文钺等译,钢筋混凝土结构,重庆建筑大学,1985。
[45] 刘毅,魏巍,白绍良,考虑非弹性特征的钢筋混凝土框架杆件刚度折减系数,重庆建筑大学学报,2002,22(1),25-32.
[46] 欧进萍,林燕清,混凝土疲劳损伤的强度和刚度衰减试验研究,哈尔滨建筑大学学报,1998,31(4),1-8。
[2] 陶学康著,后张预应力混凝土设计手册,北京,中国建筑工业出版社,1996。
[3] T.Y.Lin,N.H.Burns, 路湛沁等译,预应力混凝土结构设计,北京,中国铁道出版社,1983。
[4] H.尼尔森著,姚玲森、沈莲芬合译,预应力混凝土设计,人民交通出版社,1984。
[5] 白生翔,预应力混凝土裂缝控制回顾与综述,中国建筑科学研究院结构研究所,1997。
[6] Building Code Requirement for Structural Concrete(ACI318-95) and Commentary (ACI318R-95).
[7] ACI Committee 318 Building Code Requirement for Reinforced Concrete and Commentary(ACI-89),ACI,Dedroit,1989.
[8] CEB欧洲国际混凝土委员会,中国建筑科学研究院结构所规范室译,1990CEB-FIP模式规范(混凝土结构),1991。
[9] 中国建筑科学研究院结构所规范室译,英国混凝土结构规范(BS8100修订版),1993。
[10] Peter J. Wyche, Judith G. Urenand, Graeme C. Reynolds, Interaction Between Prestress Secondary Moments, Moment Redistribution, and Ductility -A Treatise on the Australian Concrete Codes, ACI Journal, Vol. 89, No.1, January - February 1992.
[11] 张毓澍,有粘结部分预应力陶粒混凝土连续梁次弯矩和内力重分布的试验研究,哈尔滨建筑大学硕士论文,1995。
[12] 简斌,王正霖,白绍良,预应力混凝土连续梁弯矩调幅建议,重庆建筑大学学报,1999,12(2),12-18。
[13] 白生翔,后张预应力混凝土结构构件设计方法中的几个问题,第十届全国混凝土及预应力混凝土学术交流会论文集,1998,71-107。
[14] 预应力混凝土结构抗震设计规程(征求意见稿),《混凝土结构设计规范》国家标准管理组,北京,2001。
[15] 哈尔滨工业大学土木工程学院,超静定预应力混凝土结构塑性设计新模式(一),哈尔滨,2001。
[16] 王正霖等,大跨度预应力次梁楼盖结构体系工程实践和理论研究总报告,重庆建筑大学,1997。
[17] 王正霖等,大跨度预应力次梁楼盖结构体系工程实例,重庆建筑大学,1997。
简斌,王正霖,邬洪,后张预应力混凝土连续梁的试验方法,重庆建筑大学学报,1998,
[18] 20(6),38-43。
[19] 杨建明,陈乾,部分预应力混凝土框架性能试验研究,东南大学学报,1993,23(6),140-143。
[20] 中华人民共和国国家标准,混凝土结构设计规范(GBJ10-89),中国建筑工业出版社,1989。
[21] 华东水利学院工程力学教研室《理论力学》编写组,理论力学,高等教育出版社,1985。
[22] 吴刚,吴京,名义拉应力法在预应力砼结构裂缝控制中的应用,江苏建筑,1996,4,32-36。
[23] 陶学康,关于预应力混凝土的裂缝控制及抗裂设计,建筑科学,1997,3,7-12。
[24] 郑文忠,王英,预应力混凝土结构裂缝控制及验算建议,工业建筑,1999,29(3),9-14.
[25] 李忠诚,罗建兵,李唐宁,预应力混凝土梁裂缝控制及设计方法的研究,建筑结构,2001,31(2)。
[26] 部分预应力混凝土结构设计建议,中国铁道出版社,1985。
[27] 孟少平,吕志涛,徐百川,部分预应力混凝土矩形梁裂缝闭合问题的试验研究,建筑结构学报,1987,5。
[28] 李忠诚,部分预应力混凝土梁裂缝控制及名义拉应力设计方法研究,硕士学位论文,重庆建筑大学,1998。
[29] 孙新敏,跨间竖向荷载作用下后张预应力框架的试验研究,硕士学位论文,重庆大学,2002。
[30] 简斌,对后张有粘结部分预应力混凝土连续梁次内力及内力重分布规律的试验及研究,博士学位论文,重庆建筑大学,1998。
[31] 冯徳刚,无粘结部分预应力混凝土受弯构件短期刚度的试验研究,东北电力学院学报,1996,16(4),36-43。
[32] 滕智明,混凝土结构与砌体结构,中国建筑工业出版社,1995。
[33] Ivan Campbell, Walter Dilger, John Fowler, CPCA Concrete Design Handbook, Chapter10, 1988.
[34] 薛振伟,吕志涛,预应力混凝土超静定结构的设计研究,东南大学学报,1994,24(3),35-39。
[35] 陈平友,后张预应力框架内力重分布的非线性分析,硕士学位论文,重庆大学,2002。
[36] 黄奇壁,部分预应力框架柱对梁内预应力建立的影响分析,江苏建筑,1996,4,34-36。
[37] 张来仪,景瑞,刘铮,结构力学,重庆建筑大学等,中国建筑工业出版社,1997。
[38] 孙训方、方孝淑、关来泰,材料力学,高等教育出版社,1987。
石平府,部分预应力混凝土才静定结构的内力重分布和弯矩调幅,东南大学硕士论文,
[39] 1995。
[40] 沈在康,混凝土结构试验方法新标准应用讲评,中国建筑工业出版社,1991。
[41] 王正霖,简斌,黄英,预应力连续梁极限承载能力试验研究,第十届全国混凝土及预应力混凝土学术交流会论文集,1998。
[42] T.Y.Lin and K.Thornton, Secondary Moment Redistribution in Continuous Prestressed Concrete Beams, PCI Joournal, Vol. 17, No. 1, January 1972.
[43] 吕志涛,孟少平,黄理军,预应力混凝土超静定结构次弯矩及其影响的研究,预应力混凝土结构设计若干问题的研究,东南大学,1996。
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