深厚覆盖层液化对场地卓越周期及土石坝地震响应影响研究(4)
作者:dqwlunwen 分类:理工论文 时间:2021-11-18
(2)液化后场地反应谱呈现短周期减震,长周期加震现象,加震、减震的分界线一般在0.61?0.88 s范围内;随着夹层液化程度的加重,夹层λ1值和厚度H2的增加,低频加震、高频减震作用逐渐加强,反应谱平台段所包含周期范围扩大,开始出现下降段的特征周期也随之延长,平台段反应谱值下降,减震、加震分界线周期值增大;对于P2=1/100,特征周期变化范围一般在0.85?2.35 s内。
(3)软弱夹层液化使得高土石坝坝顶加速度放大系数β明显增大,软弱夹层越薄、位置越靠近上部,放大作用越明显:在夹层软化程度较低时,β随λ1增大而减小;在夹层软化程度较深时,β随λ1增大而增大。随着H2的加厚,β呈现减小的趋势。虽然β随着软弱夹层软化程度P2-1的增加呈现下降的趋势,但仅在较厚的夹层重度液化时,对其上高土石坝地震响应较液化前有消弱的作用。
由于集中质量法及剪切楔法的局限性,本文所考虑的深厚覆盖层仅局限于水平成层场地土,并未涉及其他复杂地质地形情况。另外,本文假设软弱夹层在地震动之初就已经发生液化,事实上软弱夹层液化一般发生在地震动中后期,且越是弱震液化出现时间越靠后。关于其他复杂情况下深厚覆盖层液化现象及其对场地特性及其上建筑物地震响应的影响,尚需进一步深入研究。
参考文献:
[1] 孙 锐,赵倩玉. 液化与非液化场地加速度反应谱对比[J].岩土力学,2014,35(S1):299-305.
SUN Rui,ZHAO Qian-yu. Comparison between acceleration response spectra on liquefaction and non-liquefaction sites[J]. Rock and Soil Mechanics, 2014,35(S1):299-305.
[2] Youd T L, Carter B L. Influence of soil softening and liquefaction on spectral acceleration[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2005, 131(7): 811-825.
[3] 孫 锐,袁晓铭. 液化土层对地表加速度反应谱的影响[J].世界地震工程,2004, 20(3): 33-38.
SUN Rui,YUAN Xiao-ming. efect of soil liquefaction on response spectrum of surface acceleration[J]. World Eaethquake Engineering,2004, 20(3): 33-38.
[4] 杨正权,刘小生,赵剑明,等. 考虑深厚覆盖层结构特性的场地地震反应分析研究[J].水力发电学报,2015,34(1):175-182.
YANG Zhengquan, LIU Xiaosheng, ZHAO Jianming,et al. Study on ground seismic response analysis considering structural characteristics of deep overburden layer [J]. Journal of Hysroelectric Engineering,2015,34(1):175-182.
[5] 杨正权,刘小生,赵剑明,等. 深厚覆盖层场地地震反应分析研究[C]. 第三届全国水工抗震防灾学术交流会, 2011: 487-492.
[6] Liyanapathirana D S, Poulos H G. A numerical model for dynamic soil liquefaction analysis[J]. Soil Dynamics and Earthquake Engineering, 2002,22(9):1007-1015.
[7] 孙 锐,袁晓铭. 基于强震记录快速识别场地液化的频率下降率法[J].岩土工程学报,2007,29(9):1372-1379.
SUN Rui, YUAN Xiao-ming. The method of frequency decrease rate for fast identification of site liquefaction from surface acceleration records[J]. Rock and Soil Mechanics, 2007,29(9):1372-1379.
[8] 孙 锐,袁晓铭. 场地液化对反应谱影响评价[J].应用基础与工程科学学报,2010,18(S1):173-180.
SUN Rui, YUAN Xiaoming. Evaluation for effect of site liquefaction on response spectrum[J]. Journal of Basic Science and Engineering,2010,18(S1):173-180.
[9] 孙 锐,袁晓铭. 液化土层地震动模拟计算方法及验证[J].岩土力学,2007,28(S1):759-764.
SUN Rui,YUAN Xiao-ming. Method of simulating seismic ground motion in liquefiable soil layer[J]. Rock and Soil Mechanics, 2007,28(S1):759-764.
[10] 陈龙伟,袁晓铭,孙 锐.水平液化场地土表位移简化理论解答[J].岩土力学,2010,31(12):3823-3828.
