박사
지반형 기초지진격리장치의 면진성능 평가 = Evaluation of Seismic Performance of Geotechnical Seismic Foundation Isolation System
손수원
2018년
'
지반형 기초지진격리장치의 면진성능 평가 = Evaluation of Seismic Performance of Geotechnical Seismic Foundation Isolation System' 의 주제별 논문영향력
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| 동일주제 총논문수 | 논문피인용 총횟수 | 주제별 논문영향력의 평균 |
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주제별 논문영향력
' 지반형 기초지진격리장치의 면진성능 평가 = Evaluation of Seismic Performance of Geotechnical Seismic Foundation Isolation System' 의 참고문헌
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박사
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내진성능 평가를 위한 상사법칙 연구
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내진 및 면진받침 적용에 따른 다경간연속교의 지진거동 특성 분석
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Yegian, M.K., and Catan, M. (2004), “Soil Isolation for Seismic Protection Using a Smooth Synthetic Liner”, Journal of Geotechnical and Geoenvironmental Engineering, Vol.130, No.11, pp.1131~1139
-
Xiong, W., and Li, Y.(2013), “Seismic Isolation using Granulated Tire-Soil Mixtures for Less-Developed Regions: Experimental Validation”, Earthquake Engineering and Structural Dynamics, Vol.42, pp.2187-2193
-
Xioa, H., Butterworth, J.W., and Larkin, T.(2004), “Low-Technology Techniques for Seismic Isolation”, 2004 NZSEE Conference
-
Westermo, B., and Udwadia, F.(1983), “Periodic Response of a Sliding Oscillator System to Harmonic Excitation”, Earthquake Engineering and Structureal Dynamics, Vol.11, pp.135-146
-
Warn, G.P., Rtan, K.L.(2012), “A Review of Seismic Isolation for Buildings: Historical Development and Research Needs”, Buildings, Vol.2, No.3, pp.300-325
-
Tsatsis, A.K., Anastasopoulos, I.C., Gelagoti, F.L., and Kourkoulis, R.S. (2013), “Effectiveness of In-soil Seismic Isolation taking into account of Soil-Structure Interaction”, Proceedings of the 18th International Conference on Soil Mechanics and Geotechnical Engineering, Paris, 2013, pp.1635~1638
-
Tsatsis, A., and Anastasopoulos, I.(2015), “Performance of rocking systems on shallow improved sand shaking table testing”, Frontiers in Built Environment, Vol.1, pp.1-19
-
Tsang, H.H., Lam, T.K., Yaghmaei, S., Sheikh, M., and Indraratna, B. (2010), “Geotechnical Seismic Isolation by Scrap Ture-Soil Mixtures”, 15th International Conference on Recent Advances in Geotechnical Earthquake Engineering and Soil Dynamics, San Diego, California, 2010, May
-
Tsang, H.H. (2008), “Seismic Isolation by Rubber-Soil Mixtures for Developing Countries”, Earthquake Engineering and Structure Dynamic, Vol. 37, No. 2, pp. 283-303
-
Teyssandier, J., Combault, J., and Morand, P.(2000), “The Rion Antirion Bridge Design and Construction”, 12th World Conference on Earthquake Engineering, New Zeland, Auckland, 2000, January
-
Steedman, N.(2007), “Rion Antirion Bridge, Greece-Concept, Construction and Analysis”, Proceedins of Bridge Engineering 2 Conference, Bath, UK, April
-
Stavridis, A., Shing, B., and Conte, J. (2010), “Design, Scaling, Similitude, and Modeling of Shake-Table Test Structures”, NEES Shake Table Training Workshop 2010 – San Diego, CA
-
Son, S.W., and Kim, J.M. (2016), “Effect of Geotechnical Seismic Isolation System on Acceleration Reduction”, Electronic Journal of Geotechnical engineering, Vol.21, No.8, pp.1961-1969
-
Rocha, M.(1957), “The possibility of solving soil mechanics problems by the use of models.” Proc. 4th ICSMFE, Vol.1, pp.183-188
-
Petrina, B., Pasca, S., and Muresan, I. (2011), “Seismic Isolating Systems Classification, Properties and Utilization”, Buletinul Institutului Politehnic Din Iasi, pp. 75~89
-
Pecker, A. (2013), “Design and Construction of the Rion Antirion Bridge Foundations”, Deep Marine Foundations - A Perspective on the Design and Construction of Deep Marine Foundations, Marine Foundations Committee 2002-2008, Robert B. Bittner, Committee Chair and Editor; Roderic A. Ellman Jr., Editor
-
Pecker, A. (2008), "Design and Construction of the Rion Antirion Bridge Foundations", Technische Universit t Hamburg-Harburg, January 29, 2008
-
Pecker, A. (2006), "Enhanced seismic design of shallow foundations: example of the Rion Antirion Bridge", Fourth Athenian Lecture on Geotechnical Engineering.
-
Pecker, A. (2004). “Design and construction of the Rion Antirion Bridge”, In Proceedings of the Conference on Geotechnical Engineering for Transportation Projects, Geo-Trans, ASCE GeoInstitute, Los Angeles July, pp.27-31.
-
Panah, A.K., and Khoshay, A.H.(2015), “A New Seismic Isolation System Sleeved-Pile with Soil-Rubber Mixture”, International Journal of Civil Engineering, Vol.13, No.2, pp.124-132
-
Oliveto, G. Oliveto, N., and Athanasiou, A. (2014), “Constrained Optimization for 1-D Dynamic and Earthquake Response Analysis of Hybrid Base-Isolation Systems”, Soil Dynamics and Earthquake Engineering, Vol.67, pp.44-53
-
Morgan, T.A., Mahin, S.A.(2011), “The Use of Base Isolation Systems to Achieve Complex Seismic Performance Objectives”, Pacific Earthquake Engineering Research Center(PEER) Report 2011/06
-
Meymand, P.J. (1998). Shaking Table Scale Model Tests of Nonlinear Soil-Pile-Superstructure Interaction In Soft Clay, Ph.D Thesis, University of California, Berkeley, USA.
-
Makris, N., and Chang, S. (1998), “Effect of Damping Mechnisms on the Response of Seismically Isolated Structures”, Pacific Earthquake Engineering Research Center(PEER) Report 1998/06
-
Lyngs, J.H., Kasper, T., and Bertelsen, K.S. (2013), “Modelling of Soil-Structure Interaction for Seismic Analyses of the Izmit Bay Bridge”, Proceedings of the 18th International Conference on Soil Mechanics and Geotechnical Engineering, 2013, Paris, pp.763-768
-
Kramer, S.L. (1996), Geotechnical earthquake engineering. Prentice Hall
-
Kokusho, T. and Iwatate, T. (1979), “Scaled model tests and numerical analyses on nonlinear dynamic response of soft grounds”, Proc. of Japanese Society of Civil Engineers, No.285, pp.57-67
-
Kim, N.S., Kwak, Y.H., and Chang, S.P. (2003), “Modified Similitude Law for Pseudodynamic Test on Small-scale Steel Models.”, Earthquake Engineering Society of Korea, Vol.7, No.6, pp.49-57
-
Kim, J.M., Riemer, M., and Bray, J. D. (2005), “Dynamic properties of geosynthetic interfaces”, Geotechnical Testing Journal, ASTM, Vol.28, No.3, pp.288-296
-
Kim, J.M. Jeon, H.W. Son, S.W., Na G.H., and Lee Y.A.(2014), “Research on Geotechnical Seismic Isolation System”, International Proceedings of Chemical, Biological & Environmental Engineering, Vol.62, No.11, pp.55-59
-
Kim, J.M. (2005), “Dynamic Frictional Properties of Geosynthetic Interfaces Involving Only Non-geotextiles”, Journal of the Korean Geotechnical Society, Vol.21, No.7, pp.81~89
-
Kim, J.M. (2003), “The effects of displacement rate on shear characteristics of geotextile-involved geosynthetic interfaces”, Journal of Korean Geotechnical Society, Vol.19, No.1, pp.173-180
-
Kaplan, H., and Seireg, A. (2002), "A base isolation system for bridges subjected to seismic disturbances", Earthquake Engineering & Structureal Dynamics, Vol. 31, No. 5, pp1093-1112.
-
Kagawa, T. (1978), “On the Similitude in Model Vibration Tests of Earth Structures”, Soil Mechanics and Foundation Engineering, Proc. of Japanese Society of Civil Engineering, pp.69-77
-
Infanti, S., Papanikolas, P., Benzoni, G., and Castellano, M.G. (2004), “Rion-Antirion Bridge: Design and Full-Scaled Tesing of the Seismic Protection Devices”, 13th World Conference on Earthquake Engineering, Canada, Vancouver, 2004, August
-
Iai, S.(1989), “Similitude For Shaking Table Tests On Soil-Structure-Fluid Model In 1g Gravitational Field” Japanese Society of Mechanics and Foundation Engineering, Soils and Foundations Vol.29, No.1, pp.105-118
-
Iai, S. and Sugano, T. (1999). “Soil-structure interaction studies through shaking table tests.” Theme Lecture for the Second International Conference on Earthquake Geotechnical Engineering.
-
Huff, Timothy E. (2013), Isolation as a Seismic Design Strategy for Bridges in the New Madrid Seismic Zone, Ph.D Thesis, Civil and Environmental Engineering, University of Tennessee
-
Hosseinzadeh, N.A., and Nateghi-A, F. (2004), “Shake Table Study of Soil Structure Interaction Effects on Seismic Response of Single and Adjacent Buildings”, 13th World Conference on Earthquake Engineering, Canada, Vancouver, 2004, August
-
Hardin, B.O. and Richart, F.E. Jr. (1963), "Elastic wave velocities in granular soils". Journal of Soil Mechanics and Foundations Division, ASCE, vol. 89, no. SM1, pp. 33-65.
-
Gu, W., Wang, S., and Cai, W. (2015), “Seismic Response of Pure-Friction Sliding Base-Isolated Structures Subjected to Vertical Component of Earthquakes”, Electronic Journal of Geotechnical Engineering, Vol. 20, No. 14, pp. 5979~5986
-
Gibson, A.D. (1996). Physical scale modeling of geotechnical structures at One-G, Ph.D Thesis, California Inst. of Technology, Pasadena, California, USA.
-
Georgarakos, P., Yegian, M.K., and Gazetas, G.(2005), “In-Ground Isolation using Geosynthetic Liners”, 9th World Seminar on Seismic Isolation, Energy Dissipation and Active Vibration Control of Structures, Kobe, Japan, 2005, June 13-16
-
Gazetas, G. (2015), “4th Ishihara lecture : Soil–foundation–structure systems beyond conventional seismic failure thresholds”, Soil Dynamics and Earthquake Engineering, Vol.68, pp.23-39
-
FEMA 440 (2005), “Improvement of Nonlinear Static Seismic Analysis Procedures”, Federal Emergency Management Agency : Washington, DC., June
-
Edil, T.B., and Bosscher, P.J. (1994), “Engineering Properties of Tire Chips and Soil Mixtures”, American Society for Testing and Materials, Vol.17, No.4, pp.453-464
-
Das, B.M., and Ramana, G.V. (2011), Principle of Soil Dynamics, Cengage Learning
-
Combault, J., Pecker, A. Teyssandier, J., and Torutois, J. (2005), “Rion Antirion Bridge, Greece Concept, Design, and Construction”, Structures Worldwide-Structural Engineering International, 01/2005, pp.22-27
-
Combault, J. (2011), “The Rion-Antirion Bridge – When a dream becomes reality”, Frontiers of Architecture and Civil Engineering in China, Vol. 6, No. 4, pp 415-426
-
Chopra, A. (2014), Dynamics of Structures, Peason Higher Education
-
Chacko, J., and Giannakou, A. (2013), “Izmit Bay Bridge: Identifying Faults and Evaluating Their Impact on the Third Longest Suspension Bridge in the World”, 2nd Turkish Conference on Earthquake Engineering and Seismology, Antakya, Hatay/Turkey, 2013, September 25-27
-
Buckingham, E. (1914), “On Physically Similar Systems; Illustrations of the Use of Dimensional Equations”, Physical Review, vol. 4, Issue 4, pp. 345-376
-
Brunet, S., Llera, J.C., and Kausel, E. (2016), “Non-linear Modeling of Seismic Isolation Systems Made of Recycled Tire-Rubber”, Soil Dynamics and Earthquake Engineering, Vol.85, pp.134-145
-
Bandyopadhyay, S., Sengupta, A. and Reddy, G.R. (2014), “Natural base isolation system for earthqauke protection”, Current Science, Vol.107, No.6, pp.1037-1043
-
Assad D.J., Thomas, L., and Ribert U. (2013), “Izmit Bay Suspension Bridge – Substructure Design”, International Association for Bridge and Structural Engineering, Vol.101, pp.1-8
-
Anastasopoulos, I., Gelagoti, F., Spyridaki, A., Sideri, J., and Gazetas, G.(2014), “Seismic Rocking Isolation of an Asymmetric Frame on Spread Footings”, Journal of Geotechnical and Geoenvironmental Engineering, Vol.140, No.1, pp.133-151
-
An, T. (2006), Study on Oscillation Behavior and Aseismicity of Bridges with Seismic Isolation Foundation System, Ph.D Thesis, Civil and Environmental Engineering, Waseda University
-
Akins, A.G., and Caddell, R.M. (1974), “The Laws of Similitude and Crack Propagation”, International Journal of Mechanical Sciences, Vol.16, No.8, pp.541-548
-
ASTM C29/C29M "Standard Test Method for Bulk Density (“"Unit Weight”") and Voids in Aggregate“
-
AASHTO 2012 (American Association of State Highway and Transportation Officials)(2012), “AASHTO LRFD Bridge – Design Specifications”, 11.6.5.1, 11.6.5.2, 11.6.5.3.