The study of velocity characteristics of soils according to the MASW method for solving seismic microzonation problems
详细信息 查看全文
- 作者:A. V. Kalinina ; S. M. Ammosov
- 关键词:seismic microzonation (SMZ) ; multichannel analysis of surface waves (MASW) ; Rayleigh waves ; dispersion curve ; shear wave velocity ; V S30 ; S ; wave velocity section
- 刊名:Seismic Instruments
- 出版年:2015
- 出版时间:October 2015
- 年:2015
- 卷:51
- 期:4
- 页码:358-366
- 全文大小:5,012 KB
- 参考文献:Brown, L.T., Diehl, J.G., and Nigbor, R.L., A simplified procedure to measure average shear-wave velocity to a depth of 30 meters (V s30), Proceedings of the 12th World Conference on Earthquake Engineering, Aukland, New Zealand, 2000, Aukland, 2000.
Building Seismic Safety Council, NEHRP Recommended Provisions for Seismic Regulations for New Buildings and Other Structures. 2000 Ed. Pt. 1: Provisions, Washington, D.C., 2003.
Foti, S., Lai, C.G., Rix, G., and Roma, V., Simultaneous measurement and inversion of surface wave dispersion and attenuation curves, Soil Dyn. Earthquake Eng., 2002, vol. 22, pp. 923鈥?30.CrossRef
Hayashi, K. and Suzuki, H., CMP crosscorrelation analysis of multichannel surface-wave data, Explor. Geophys., 2004, vol. 35, pp. 7鈥?3.CrossRef
Kalinina, A.V., Ammosov, S.M., and Tikhonov, A.V., Investigation of the upper section by multichannel surface wave analysis at the Zvenigorod Test Area of the Moscow State University, Inzh. Izyskaniya, 2012, no. 11, pp. 36鈥?1.
Martin, A.J. and Diehl, J.G., Practical experience using a simplified procedure to measure average shear-wave velocity to a depth of 30 meters (V s30), 13th World Conference on Earthquake Engineering, Vancouver, Canada, 2004, paper no. 952.
Miller, J.X., Park, C.B., and Ivanov, J.M., Multichannel analysis of surface waves to map bedrock, Lead. Edge, 1999, vol. 18, no. 12, pp. 1392鈥?396.CrossRef
Nazarian, S., Stokoe, K.H., II, and Hudson, W.R., Use of spectral analysis of surface waves method for determination of moduli and thicknesses of pavement systems, Transp. Res. Rec., 1983, vol. 930, pp. 38鈥?5.
Ovsyuchenko, A.N., Kalinina, A.V., Ammosov, S.M., Vakarchuk, R.N., Novikov, S.S., Lar鈥檏ov, A.S., and Marakhanov, A.V., Application of MASW seismic survey in seismotectonic studies: A case study of the Russian Far East, Inzh. Izyskaniya, 2013, no. 2, pp. 38鈥?8.
Park, C.B., Xia, J., and Miller, R.D., Imaging dispersion curves of surface waves on multi-channel record, Expanded Abstracts of 68th Annual International Meeting of the Society of Exploration Geophysicists, New Orleans, USA, 1998, 1998, pp. 1377鈥?380.
Park, C.B., Miller, R.D., and Xia, J., Offset and resolution of dispersion curve in multichannel analysis of surface waves (MASW), Proceedings of the SAGEEP2001, Denver, USA, 2001, pap. SSM4.
Park, C.B., Miller, R.D., and Miura, H., Optimum field parameters of an MASW survey, Extended Abstracts of SEG-J, Tokyo, 2002, 2002.
Roma, V., Soil properties and site characterization by means of Rayleigh waves, PhD Thesis, Turin: Politecnico di Torino, 2001.
Roma, V., Automated inversion of Rayleigh geometrical dispersion relation for geotechnical soil identification, 3rd World Conference on Structural Control, Como, Italy, 2002.
Roma, V., Seismic Characterization of Soils by Means of MASW Method: A Manual, 2007. www.masw.it.
Roma, V. and Pescatore, M., Environmental impact caused by high speed train vibrations, International Geotechnical Conference 鈥淪oil-Structure Interaction: Calculation Methods and Engineering Practice鈥?/em>, St. Petersburg, Russia, 2005, St. Petersburg, 2005, pp. 26鈥?8.
Suto, K., Multichannel analysis of surface waves (MASW) for investigation of ground competence: An introduction, Engineering Advances in Earthworks: Proceedings of the Sydney Chapter 2007 Symposium, Sydney: Austr. Geomech. Soc., 2007, pp. 71鈥?1. - 作者单位:A. V. Kalinina (1)
S. M. Ammosov (1)
1. Schmidt Institute of Physics of the Earth of the Russian Academy of Sciences, ul. Bol鈥檚haya Gruzinskaya 10, str. 1, Moscow, 123995, Russia - 刊物主题:Geophysics/Geodesy;
- 出版者:Springer US
- ISSN:1934-7871
文摘
This work proposes the applicability of the method of multichannel analysis of surface waves (MASW) for solving seismic microzonation problems based on research results obtained in different regions of the Russian Federation. Results of MASW processing are used in the assessment of seismic-site effects including the calculation of peak ground acceleration and soil amplification at different frequencies. The method provides stable results of the analysis of shear wave velocity characteristics of complex geological sections, even in a medium with a minimum velocity gradient. Keywords seismic microzonation (SMZ) multichannel analysis of surface waves (MASW) Rayleigh waves dispersion curve shear wave velocity V S30 S-wave velocity section