武汉长江隧道工程盾构段纵向地震响应分析
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摘要
首先讨论了盾构隧道纵向地震响应分析的响应位移法中相关参数的不同确定方法,然后研究了一种将二维有限元动力计算与响应位移法相结合的方法,这种方法能够有效地模拟地震波在地基中的实际传播过程,并且具有较高的计算效率。随后利用这两种方法研究了武汉长江隧道工程盾构段隧道的纵向抗震性能,并对计算结果进行了对比研究。
After discussing the different computational methods of the relevant parameters in response displacement method,it researched another method of longitudinal seismic response analysis of shield tunnel,which is a combination of two-dimensional dynamic finite element method and response displacement method and could simulate the seismic wave propagation in the soil effectively with high computational efficiency.Subsequently,the two methods mentioned above were applied to analyze the longitudinal seismic behavior of the shield section of Wuhan Changjiang Tunnel,with the respective results being compared.
After discussing the different computational methods of the relevant parameters in response displacement method,it researched another method of longitudinal seismic response analysis of shield tunnel,which is a combination of two-dimensional dynamic finite element method and response displacement method and could simulate the seismic wave propagation in the soil effectively with high computational efficiency.Subsequently,the two methods mentioned above were applied to analyze the longitudinal seismic behavior of the shield section of Wuhan Changjiang Tunnel,with the respective results being compared.
引文
[1]潘旦光,楼梦麟,范立础.多点输入下大跨度结构地震反应分析研究现状[J].同济大学学报:自然科学版,2001,29(10),1213-1219.
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[4]林皋.地下结构抗震分析综述(上)[J].世界地震工程,1990,(2):1-10.
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[6]黄先峰.地下结构的抗震计算——响应位移法[J].铁道建筑,1999,(6),3-6.
[7]刘学山.盾构隧道的纵向抗震分析研究[J].地下空间,2003,23(2):166-172.
[8]韩大建,周阿兴,黄炎生.珠江水下沉管隧道的抗震分析与设计(Ⅰ)——时程响应法[J].华南理工大学学报:自然科学版,1999,27(11):115-121.
[9]川岛一彦,等.地下构筑物的耐震设计[M].日本:鹿岛出版社,1994.
[10]廖振鹏.工程波动理论导论[M].北京:科学出版社,2002.
[11]李山有,廖振鹏,周正华.大型结构地震反应值模拟中的波动输入[J].地震工程与工程振动,2001,(2):1-5.
[12]骆文海.日本铁路隧道的抗震设计和加固[R].北京:铁道工程学部,1998,(S1).
[2]O KIYOMIYA.Earthquake-resistant design features of immersed tunnels in Japan[J].Tunnelling and Underground Space Technology,1995,10(4):453-475.
[3]吕春英,刘维宁.铁路隧道抗震设计方法探讨[J].世界隧道,2000(S1),359-364.
[4]林皋.地下结构抗震分析综述(上)[J].世界地震工程,1990,(2):1-10.
[5]YOUSSEF M A,HASHASH JEFFREY J,HOOK BIRGER SCHMIDT,et al.Seismic design and analysis of underground structures[J].Tunnelling and Underground Space Technology,2001(16),247-293.
[6]黄先峰.地下结构的抗震计算——响应位移法[J].铁道建筑,1999,(6),3-6.
[7]刘学山.盾构隧道的纵向抗震分析研究[J].地下空间,2003,23(2):166-172.
[8]韩大建,周阿兴,黄炎生.珠江水下沉管隧道的抗震分析与设计(Ⅰ)——时程响应法[J].华南理工大学学报:自然科学版,1999,27(11):115-121.
[9]川岛一彦,等.地下构筑物的耐震设计[M].日本:鹿岛出版社,1994.
[10]廖振鹏.工程波动理论导论[M].北京:科学出版社,2002.
[11]李山有,廖振鹏,周正华.大型结构地震反应值模拟中的波动输入[J].地震工程与工程振动,2001,(2):1-5.
[12]骆文海.日本铁路隧道的抗震设计和加固[R].北京:铁道工程学部,1998,(S1).
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