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摘要:
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采用Mononobe-Okabe理论的基本假设,给出了地震加速度沿墙高均匀分布和线性分布两种情况下的地震土压力强度、地震土压力合力和地震土压力合力作用点的理论公式,并研究了有关因素对地震土压力及其分布的影响。结果表明,地震土压力合力与Mononobe-Okabe理论给出的结果相同,地震土压力强度为非线性分布,地震土压力合力作用点在基础以上0.42~0.46倍墙后填土高度处,与大量实验研究成果相吻合。
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On the basis Assumption of Mononobe-Okabe theory,the theoretical formula of the unit seismic earth pressure,the resultant seismic earth pressure and the point of action of resultant seismic earth pressure for the case of uniform distribution and linear distribution of seismic acceleration along the height of wall are obtained.The effects of various factors on seismic earth pressure and distribution are also investigated.The results show that the resultant seismic earth pressure is the same as that given by Mononobe-Okabe theory,the distribution of seismic earth pressure is non-linear,the point of action of the resultant seismic earth pressure is 0.42-0.46 times higher than the height of backfill above the foundation,and it is identical with a large number of experimental results.
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基金项目:
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国家自然科学基金(50579046);;
教育部博士点基金(20050056036)资助项目
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作者简介:
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参考文献:
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[1]Scott R F.Induced-induced pressure on retaining walls[C].Proc.of 5th World Engineering Conf.on EarthquakeEngineering.Tokyo,Japan,1973:1 611-1 620.
[2]Jain S K,Scott R F.Seismic analysis of cantilever retainingwalls[C].10th Int.Conf.on Structrual Mechanics in ReactorTechnollogy.California,USA:Bechtel Western PowerCompany,1989:241-246.
[3]Alampalli S,Elgamal A W.Retaining wall:computation ofseismically induced deformations[C].Proc.2nd Int.Conf.onRecent Advances in Geotechnical Earthquake Engineeringand Soil Dynamics.Missouri USA:University of Missouri-Rolla,1991:635-642.
[4]Siller T J,Christiano P P,Bielak J.Seismic response of tied-back retaining walls[J].Earthquake Engineering andStructural Dynamics,1991,20(7):605-620.
[5]Veletsos A S,Younan A H.Dynamic modeling and responseof soil-wall system[J].Journal of Geotechnical andGeoenvironmental Engineering,1994,120(12):2 155-2179.
[6]Richards Jr R,Huang C,Fishman K L.Seismic earth pressureon retaining structures[J].Journal of Geotechnical andGeoenvironmental Engineering,1999,125(9):771-778.
[7]Mononobe N.Considerations into earthquake vibrations andvibration theories[J].Journal of the Japan Society of CivilEngineers,1924,10(5):1 063-1 094.
[8]Mononobe N,Matsuo H.On the determination of earthquakepressure during earthquake[C].Proc.of World EngineeringCongress.Tokyo,Japan,1929:177-185.
[9]Okabe S.General theory on earthquake pressure and seismicstability of retaining wall and dam[J].Journal of the JapanSociety of Civil Engineers,1924,10(5):1 277-11 323.
[10]Whitman R V.Seismic design of earth retaining structures[C].Proc.2nd Int.Conf.on Recent Advances inGeotechnical Earthquake Engineering and SoilDynamics.Missouri,USA:University of Missouri-Rolla,1991:1 767-1 778.
[11]Ichibara M,Matsuzawa H.Earth pressure duringearthquake[J].Soil and Foundation,1973,13(1):75-86.
[12]Sherif M A,Ishibashi I,Lee C D.Earth pressures againstrigid retaining walls[J].Journal of GeotechnicalEngineering,1982,108(5):679-695.
[13]Sherif M A,Fang Y S.Dynamic earth pressures on wallsrotating about the top[J].Soils and Foundations,1984,24(4):109-117.
[14]Wood J H.Earthquake-induced pressures on retaining wall[R].California:Earthquake Engrg.Res.Lab.,CaliforniaInstitute of Technology,1973.
[15]Seed H B,Whitman R V.Design of earth retainingstructures for dynamic loads[C].Proc.of Special Conf.onLateral Stress,Ground Displacement and Earth retainingStructures.Ithaca,N.Y.,1970:103-147.
[16]Prakash S.Soil Dynamics[M].New York:McGraw-Hill,1981.
[17]Matsuzawa H,Ishibashi I,Kawamura M.Dynamic soil andwater pressure of submerged soils[J].Journal ofGeotechnical Engineering,1985,111(10):1 161-1 176.
[18]Wang Y,-Z.Distribution of earth pressure on a retainingwall[J].Geotechnique,2000,50(1):83-88.
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