钢结构用混凝土空腔楼盖受力性能研究
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摘要
为了更好地掌握钢结构用空腔楼盖受力变形性能,本文基于钢结构用空腔楼盖足尺试验,通过理论分析和有限元计算,进行了如下研究:
根据试验现象,分析了空腔楼盖的破坏形态,确定了空腔楼盖的破坏标志。采用塑性铰线分析方法,对不同连接方式下塑性铰线出现时的荷载进行计算,对比试验结果,确定了空腔楼盖足尺试验的连接方式。
建立有限元模型,在混凝土用量相同的情况下,对比分析了钢结构用空腔楼盖、平板无梁楼盖、密肋楼盖的受力和变形性能。通过模型结果的对比分析,对钢结构用空腔楼盖的主要参数,诸如肋梁间距、肋梁高度、钢梁高度、板厚等对楼盖受力性能的影响规律进行了研究。参考已有的工程实例,对上述参数的合理取值范围提出了建议。
论述了拟板法、拟夹层板法、拟梁法、查表法等计算空腔楼盖弹性变形的基本过程。将各种方法的计算结果及有限元模型的计算结果进相互对比,分析了各种计算方法的特点及其准确性,推荐了适合空腔楼盖变形的计算方法。
In order to investigate the mechanical and deformation behavior of the hollow floor-slab with steel beam more precisely, this paper which is based on a full-scale test was written. Through theoretical analysis and software calculation, research has been done as following.
According to the test data and an analysis of the hollow floor-slab's failure mode, this paper determines the sign of the hollow floor-slab with steel beam's failure. As well, failure load in various kinds of connection method was calculated by plastic hinged line way. Compared with test result, test's connection style could be confirmed.
Finite element model was built in this paper. Analyze the mode result, when the concrete amount remain unchanged, the hollow floor-slab works better compared to ribbed floor and beamless floor in view of mechanical and deformation behavior. After a comparison of model result and engineering example, this paper analyze the influence of the main member's size to the mechanical and deformation behavior of the hollow floor-slab with steel beam. the main member's reasonable value, such as distance of rib beam, height of rib beam, height of steel beam and plate thickness, etc.
The elastic calculation of the hollow floor-slab can be classified as simulating plate method, simulating sandwich plate method, simulating beam method, table method, etc. This paper derived basic process of above methods. Through a comparison of model result and theoretical calculation, this paper summarized characteristics and accuracy of above methods. As well, proper methods had been recommended in this paper.
根据试验现象,分析了空腔楼盖的破坏形态,确定了空腔楼盖的破坏标志。采用塑性铰线分析方法,对不同连接方式下塑性铰线出现时的荷载进行计算,对比试验结果,确定了空腔楼盖足尺试验的连接方式。
建立有限元模型,在混凝土用量相同的情况下,对比分析了钢结构用空腔楼盖、平板无梁楼盖、密肋楼盖的受力和变形性能。通过模型结果的对比分析,对钢结构用空腔楼盖的主要参数,诸如肋梁间距、肋梁高度、钢梁高度、板厚等对楼盖受力性能的影响规律进行了研究。参考已有的工程实例,对上述参数的合理取值范围提出了建议。
论述了拟板法、拟夹层板法、拟梁法、查表法等计算空腔楼盖弹性变形的基本过程。将各种方法的计算结果及有限元模型的计算结果进相互对比,分析了各种计算方法的特点及其准确性,推荐了适合空腔楼盖变形的计算方法。
In order to investigate the mechanical and deformation behavior of the hollow floor-slab with steel beam more precisely, this paper which is based on a full-scale test was written. Through theoretical analysis and software calculation, research has been done as following.
According to the test data and an analysis of the hollow floor-slab's failure mode, this paper determines the sign of the hollow floor-slab with steel beam's failure. As well, failure load in various kinds of connection method was calculated by plastic hinged line way. Compared with test result, test's connection style could be confirmed.
Finite element model was built in this paper. Analyze the mode result, when the concrete amount remain unchanged, the hollow floor-slab works better compared to ribbed floor and beamless floor in view of mechanical and deformation behavior. After a comparison of model result and engineering example, this paper analyze the influence of the main member's size to the mechanical and deformation behavior of the hollow floor-slab with steel beam. the main member's reasonable value, such as distance of rib beam, height of rib beam, height of steel beam and plate thickness, etc.
The elastic calculation of the hollow floor-slab can be classified as simulating plate method, simulating sandwich plate method, simulating beam method, table method, etc. This paper derived basic process of above methods. Through a comparison of model result and theoretical calculation, this paper summarized characteristics and accuracy of above methods. As well, proper methods had been recommended in this paper.
引文
[1]沈蒲生.楼盖结构设计原理.北京:科学出版社,2003.164-192
[2]李培林,吴学敏.混凝土密肋及井式楼盖设计手册.北京:中国建筑工业出版社,1994.1-56
[3]程德文.边支承大跨现浇混凝土蜂窝式空心双向板的试验研究:[博士学位论文].南京:东南大学,2006
[4]马克俭,张华刚,郑涛.新型建筑空间网格结构理论与实践.北京:人民交通出版社,2005.76-111
[5]马克俭,黄勇,张华刚等.多层与高层建筑钢筋混凝土空腹夹层板与鱼骨式空腹夹层板楼盖结构体系的研究与应用.贵州工业大学学报,1997,26(4):1-9
[6]马克俭,黄勇,肖建春等.大跨度钢筋混凝土空腹夹层板柱结构研究与应用.贵州工业大学学报,1998,27(5):92-96
[7]黄勇.钢筋混凝土空腹夹层板的理论分析与实践:[博士学位论文].杭州:浙江大学,1998
[8]肖建春,马克俭.剪力键式双向空心大板结构的超级有限元分析.贵州工学学报,1996,25(2):45-52
[9]高维成,沈世钊,黄智广.预应力空腹楼盖结构的弹塑性有限元分析.哈尔滨建筑大学学报,2002,35(1):25-29
[10]黄晓晖,程德文,徐澄等.无柱帽空心无梁楼盖设计中若干问题的探讨.建筑科学,2002,18(3):19-25
[11]高仲学,程文瀼,程德文等.现浇混凝土无柱帽空心无梁楼盖的设计与施工,特种结构,2002,19(2):45-48
[12]王茂.薄壁筒芯现浇混凝土空心楼盖受力性能研究:[硕士学位论文].长沙:中南大学,2003
[13]王金.现浇混凝土筒芯楼盖受力性能研究:[硕士学位论文].长沙:中南大学,2004
[14]王茂,杨建军.现浇钢筋混凝土空心无梁楼盖的虚拟交叉梁分析法.长沙铁道学院学报,2003,(02)
[15]杨建军,成洁筠,郝静等.现浇混凝土筒芯楼盖实用设计法的比较:中国工程建设标准化协会混凝土结构专业委员会.全国现浇混凝土空心楼盖结构技术交流会论文集.上海:2005.267-274
[16]余勇为.刚-混凝土组合空腹楼板的试验研究:[硕士学位论文].长沙:中南大学,2008
[17]中国工程建设标准化协会CECS 175:2004.现浇混凝土空心楼盖结构技术规程.北京:中国计划出版社,2004
[18]程文瀼,江韩,高仲学等.圆竹式无柱帽空心无梁楼盖的试验研究.建筑结构学报,2004,25(5):78-84
[19]G.Franz Test Report Extract on a Model of the Cellular Flat Plate.1965
[20]E.H.Hendler Cellular Flat Plate Construction.Journal of ACT,1968:
[21]Elliott G, Clark L.A. Symmons R.M.Test of a quarter-scale reinforced voided slab bridge. Wexham Springs, Cement & Concrete Association,1979.40-48
[22]Elliott G, Clark L A. Circular voided concrete slab stiffness. Journal of the Structural Division ASCE,1982,108(5):2379-2393
[23]A.B. Ajdukiewicz, A.T. Kliszczewicz. Experimental analysis of limit states in a six-panel waffle flate structure. ACI Journal,1986,83(6):909-915
[24]J B Kennedy, K J Iyengar. Rigidities of nonorthogonally shaped waffle slabs[J]. ASCE J Struct Div,1982,108(10):2263-2272
[25]M.S. Hashim, M.H. Khalil A.B..Rigidity and strength of orthotropic reinforced concrete waffle slabs. Journal of structural engineering,2000,126(2):219-227
[26]王本淼,邹银生,朱清平.薄壁箱体现浇混凝土空腹板用薄壁箱体.中国专利,ZL02282207.0,2003-12-17
[27]王本淼.BDF薄壁筒芯和箱体在现浇混凝土空心楼盖中的应用:全国现浇混凝土空心楼盖结构技术交流会论文集.上海:2005.366-369
[28]张阿粒.薄壁箱体现浇混凝土空腹板楼盖结构的理论分析:[硕士学位论文].长沙:湖南大学,2004
[29]冯承辉.薄壁箱体现浇混凝土空腹板楼盖有限元分析与设计方法研究:[硕士学位论文].长沙:湖南大学,2004
[30]周庆.现浇混凝土空心楼盖的内力分析和设计方法的研究:[硕士学位论文].长沙:湖南大学,2006
[31]杨建军,余勇为等.钢结构用箱体混凝土现浇空腹楼盖受力性能试验研究.长沙:中南大学土木建筑学院,2008.3-24
[32]韩冰,马丽慧.角点支承蜂巢芯钢筋混凝土空心楼盖的试验研究.北京:工业建筑杂志社,2007,37:456-459
[33]王新敏ANSYS工程结构数值分析.北京:人民交通出版社,2007.18-119
[34]陆新征.利用ANSYS Solid65单元复杂应力条件下的混凝土结构.建筑结构,2003,33:22-24
[35]徐芝纶.弹性力学(第四版)下册.北京:高等教育出版社,2006.128-133
[36]吴方伯,汪幼林,周绪红等.混凝土密肋空心楼盖试验研究.建筑科学与工程学报.2006,3(1):59-62
[37]刘群,杨进春.大跨度密肋楼盖设计计算的拟板解法.建筑科学,1997,6:30-34
[38]唐昭青,邹银生,吴建华.四边简支薄壁箱体空心楼盖竖向荷载下挠度分析.湘潭大学自然科学学报,2008,30(2):77-80
[39]S.铁摩辛柯,S.沃若斯基.板壳理论.北京:科学技术出版社,1997,26-29
[40]中国科学院北京力学研究所固体力学研究室.夹层板壳的弯曲、稳定和振动.北京:科学出版社,1977.1-27
[41]胡建昌.蜂巢芯钢筋混凝土空心楼盖静力学分析:[硕士学位论文].上海:同济大学,2006
[42]陈应波,杨浩文,傅礼铭.现浇混凝土双向密肋空腔楼盖理论分析.湘潭大学自然科学学报,2008,30(1):100-104
[43]沈蒲生,刘哲峰.角点支承钢筋混凝土双向密肋楼盖的挠度计算方法.湖南大学学报(自然科学版),2002,6:106-111
[44]杨浩文.现浇混凝土双向密肋空腔楼盖理论分析:[硕士学位论文].武汉:武汉理工大学,2008
[45]张志勇等.精通MATLAB6.5版.北京:北京航空航天大学出版社,2002.6-79
[46]刘人怀.夹层板壳非线性理论分析.广州:暨南大学出版社,2008.8-29
[47]程华,刘方龙.复合材料夹层板弯曲修正的Reissner.复合材料学报,1990,7:17-26
[48]王铁梦.工程结构裂缝控制.北京:中国建筑工业出版社,1997.2-6
[49]梁兴复,曲庆璋.弹性矩形板的一般精确解.西安公路学院学报,1992,12:53-62
[50]苗天德,程昌钧.关于弹性版弯曲变形的Reissner理论.应用数学与力学,1979,1(2):221-234
[2]李培林,吴学敏.混凝土密肋及井式楼盖设计手册.北京:中国建筑工业出版社,1994.1-56
[3]程德文.边支承大跨现浇混凝土蜂窝式空心双向板的试验研究:[博士学位论文].南京:东南大学,2006
[4]马克俭,张华刚,郑涛.新型建筑空间网格结构理论与实践.北京:人民交通出版社,2005.76-111
[5]马克俭,黄勇,张华刚等.多层与高层建筑钢筋混凝土空腹夹层板与鱼骨式空腹夹层板楼盖结构体系的研究与应用.贵州工业大学学报,1997,26(4):1-9
[6]马克俭,黄勇,肖建春等.大跨度钢筋混凝土空腹夹层板柱结构研究与应用.贵州工业大学学报,1998,27(5):92-96
[7]黄勇.钢筋混凝土空腹夹层板的理论分析与实践:[博士学位论文].杭州:浙江大学,1998
[8]肖建春,马克俭.剪力键式双向空心大板结构的超级有限元分析.贵州工学学报,1996,25(2):45-52
[9]高维成,沈世钊,黄智广.预应力空腹楼盖结构的弹塑性有限元分析.哈尔滨建筑大学学报,2002,35(1):25-29
[10]黄晓晖,程德文,徐澄等.无柱帽空心无梁楼盖设计中若干问题的探讨.建筑科学,2002,18(3):19-25
[11]高仲学,程文瀼,程德文等.现浇混凝土无柱帽空心无梁楼盖的设计与施工,特种结构,2002,19(2):45-48
[12]王茂.薄壁筒芯现浇混凝土空心楼盖受力性能研究:[硕士学位论文].长沙:中南大学,2003
[13]王金.现浇混凝土筒芯楼盖受力性能研究:[硕士学位论文].长沙:中南大学,2004
[14]王茂,杨建军.现浇钢筋混凝土空心无梁楼盖的虚拟交叉梁分析法.长沙铁道学院学报,2003,(02)
[15]杨建军,成洁筠,郝静等.现浇混凝土筒芯楼盖实用设计法的比较:中国工程建设标准化协会混凝土结构专业委员会.全国现浇混凝土空心楼盖结构技术交流会论文集.上海:2005.267-274
[16]余勇为.刚-混凝土组合空腹楼板的试验研究:[硕士学位论文].长沙:中南大学,2008
[17]中国工程建设标准化协会CECS 175:2004.现浇混凝土空心楼盖结构技术规程.北京:中国计划出版社,2004
[18]程文瀼,江韩,高仲学等.圆竹式无柱帽空心无梁楼盖的试验研究.建筑结构学报,2004,25(5):78-84
[19]G.Franz Test Report Extract on a Model of the Cellular Flat Plate.1965
[20]E.H.Hendler Cellular Flat Plate Construction.Journal of ACT,1968:
[21]Elliott G, Clark L.A. Symmons R.M.Test of a quarter-scale reinforced voided slab bridge. Wexham Springs, Cement & Concrete Association,1979.40-48
[22]Elliott G, Clark L A. Circular voided concrete slab stiffness. Journal of the Structural Division ASCE,1982,108(5):2379-2393
[23]A.B. Ajdukiewicz, A.T. Kliszczewicz. Experimental analysis of limit states in a six-panel waffle flate structure. ACI Journal,1986,83(6):909-915
[24]J B Kennedy, K J Iyengar. Rigidities of nonorthogonally shaped waffle slabs[J]. ASCE J Struct Div,1982,108(10):2263-2272
[25]M.S. Hashim, M.H. Khalil A.B..Rigidity and strength of orthotropic reinforced concrete waffle slabs. Journal of structural engineering,2000,126(2):219-227
[26]王本淼,邹银生,朱清平.薄壁箱体现浇混凝土空腹板用薄壁箱体.中国专利,ZL02282207.0,2003-12-17
[27]王本淼.BDF薄壁筒芯和箱体在现浇混凝土空心楼盖中的应用:全国现浇混凝土空心楼盖结构技术交流会论文集.上海:2005.366-369
[28]张阿粒.薄壁箱体现浇混凝土空腹板楼盖结构的理论分析:[硕士学位论文].长沙:湖南大学,2004
[29]冯承辉.薄壁箱体现浇混凝土空腹板楼盖有限元分析与设计方法研究:[硕士学位论文].长沙:湖南大学,2004
[30]周庆.现浇混凝土空心楼盖的内力分析和设计方法的研究:[硕士学位论文].长沙:湖南大学,2006
[31]杨建军,余勇为等.钢结构用箱体混凝土现浇空腹楼盖受力性能试验研究.长沙:中南大学土木建筑学院,2008.3-24
[32]韩冰,马丽慧.角点支承蜂巢芯钢筋混凝土空心楼盖的试验研究.北京:工业建筑杂志社,2007,37:456-459
[33]王新敏ANSYS工程结构数值分析.北京:人民交通出版社,2007.18-119
[34]陆新征.利用ANSYS Solid65单元复杂应力条件下的混凝土结构.建筑结构,2003,33:22-24
[35]徐芝纶.弹性力学(第四版)下册.北京:高等教育出版社,2006.128-133
[36]吴方伯,汪幼林,周绪红等.混凝土密肋空心楼盖试验研究.建筑科学与工程学报.2006,3(1):59-62
[37]刘群,杨进春.大跨度密肋楼盖设计计算的拟板解法.建筑科学,1997,6:30-34
[38]唐昭青,邹银生,吴建华.四边简支薄壁箱体空心楼盖竖向荷载下挠度分析.湘潭大学自然科学学报,2008,30(2):77-80
[39]S.铁摩辛柯,S.沃若斯基.板壳理论.北京:科学技术出版社,1997,26-29
[40]中国科学院北京力学研究所固体力学研究室.夹层板壳的弯曲、稳定和振动.北京:科学出版社,1977.1-27
[41]胡建昌.蜂巢芯钢筋混凝土空心楼盖静力学分析:[硕士学位论文].上海:同济大学,2006
[42]陈应波,杨浩文,傅礼铭.现浇混凝土双向密肋空腔楼盖理论分析.湘潭大学自然科学学报,2008,30(1):100-104
[43]沈蒲生,刘哲峰.角点支承钢筋混凝土双向密肋楼盖的挠度计算方法.湖南大学学报(自然科学版),2002,6:106-111
[44]杨浩文.现浇混凝土双向密肋空腔楼盖理论分析:[硕士学位论文].武汉:武汉理工大学,2008
[45]张志勇等.精通MATLAB6.5版.北京:北京航空航天大学出版社,2002.6-79
[46]刘人怀.夹层板壳非线性理论分析.广州:暨南大学出版社,2008.8-29
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