一种新型桩-土-结构体系抗震性能的研究
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摘要
根据支盘桩抗压、抗拔及抗扭曲的阻抗性能,提出了由支盘桩代替直杆桩,组成支盘桩-地基-上部结构体系,并对该体系进行了理论分析。通过分析认为:支盘与阻尼器具有相似性原理,在地震作用下,盘在土体中作位移极小的往复运动,提供刚度和阻尼、消耗地震能量、减轻地震动对结构的地震反应。针对该体系的抗震特性,提出了相应的计算分析方法和模型试验方法。
Considering that disk piles possess markedly resistance to compression, extraction and torsion,it is put forward that straight piles can be substituted by disk piles to form a disk pile-soil-superstructure system.It is thought that the working principle of disk piles is similar to that of dashpots. The disks move back and forth in the soil with small displacement under the seismic action,which provides rigidity and damping, depletes the seismic energy,and lightens the seismic action on the structure. The methods of computation and model experiment are introduced for the study of the interaction in the system.
Considering that disk piles possess markedly resistance to compression, extraction and torsion,it is put forward that straight piles can be substituted by disk piles to form a disk pile-soil-superstructure system.It is thought that the working principle of disk piles is similar to that of dashpots. The disks move back and forth in the soil with small displacement under the seismic action,which provides rigidity and damping, depletes the seismic energy,and lightens the seismic action on the structure. The methods of computation and model experiment are introduced for the study of the interaction in the system.
引文
[1] 胡聿贤,周锡元.地震工程的跨世纪发展—回顾、展望与建议[A].第五届全国地震工程会议论文集[C].北京:地震工程出版社,1998.1-9.
[2] 王亚勇.我国2000年抗震设计模式规范展望[A].第五届全国地震工程会议论文集[C].北京:地震工程出版社,1998.13-17.
[3] 王 刚,魏新磊,赵 彤.建筑物隔震技术在日本的研究发展和工程应用[J].世界地震工程,2001,17(4):7-12.
[4] 王 伟,王 俭.桩箱基础与地基相互作用高层建筑抗震性能研究[J].世界地震工程,2001,17(4):128-134.
[5] 刘惠珊.桩基震害及原因分析——日本阪神大地震的启示[J].工程抗震,1999,(1):18-23.
[6] JunT,NobuoF,ShigeharuY.Experimentalevaluationofdynamiccharacteristicsoflowandmedium-risebuildingswithsoil-structureinteraction[A].The12thWorldConferenceonEarthquakeEngineering[C].Auckland,NewZealand,2000.135-141.
[7] 范 敏,谢明雨,邬瑞锋.桩-土-结构相互作用体系的非线性地震反应分析[J].地震工程与工程振动,1985,5(3):6-12.
[8] 韦定国,王社良.抗震结构设计[M].武汉:武汉工业大学出版社,2001.15-51.
[9] 刘 雁,段瑞仁.结构抗震试验方法发展概况[J].结构工程师,2001,(增刊):140-144.
[2] 王亚勇.我国2000年抗震设计模式规范展望[A].第五届全国地震工程会议论文集[C].北京:地震工程出版社,1998.13-17.
[3] 王 刚,魏新磊,赵 彤.建筑物隔震技术在日本的研究发展和工程应用[J].世界地震工程,2001,17(4):7-12.
[4] 王 伟,王 俭.桩箱基础与地基相互作用高层建筑抗震性能研究[J].世界地震工程,2001,17(4):128-134.
[5] 刘惠珊.桩基震害及原因分析——日本阪神大地震的启示[J].工程抗震,1999,(1):18-23.
[6] JunT,NobuoF,ShigeharuY.Experimentalevaluationofdynamiccharacteristicsoflowandmedium-risebuildingswithsoil-structureinteraction[A].The12thWorldConferenceonEarthquakeEngineering[C].Auckland,NewZealand,2000.135-141.
[7] 范 敏,谢明雨,邬瑞锋.桩-土-结构相互作用体系的非线性地震反应分析[J].地震工程与工程振动,1985,5(3):6-12.
[8] 韦定国,王社良.抗震结构设计[M].武汉:武汉工业大学出版社,2001.15-51.
[9] 刘 雁,段瑞仁.结构抗震试验方法发展概况[J].结构工程师,2001,(增刊):140-144.
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