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Eduardo Botero Jaramillo y Miguel P. Romo O.Botero, E. (2004). “Modelo bidimensional, no lineal para el análisis del comportamientodinámico de estructuras térreas.” Tesis Doctoral. División de Estudios de Posgrado.Universidad Nacional Autónoma de México.Botero, E. y Romo M. P. (2004). “Kinetic Effect on Flexible Bodies Behavior”. 13th WorldConference on Earthquake Engineering, Vancouver, B.C., Canada.Botero, E., Méndez, B. C. y Romo M. P. (2005). “Earthquake Energy Transmission atInterfaces”. The 11th International Conference of IACMAG 2005, Turín, Italia.Botero, E., Méndez, B. C. y Romo M. P. (2005). “Consideraciones Sísmicas sobre losDisipadores de Energía Friccionantes”. XV Congreso Nacional de Ingeniería Sísmica.México D.F.Chopra, A. K. and Zhang, L. (1991). “Earthquake-Induced Base Sliding of ConcreteGravity Dams.” Journal of Structural Engineering. ASCE, 117 (12), 3698-3719.Davis, R. O., Desai, C. S. and Smith, N. R. (1993). “Stability of Motions of TranslationalLandslides.” Journal of Geotechnical Engineering, Vol. 119, No. 3, March, pp. 420-432.Dobry, R. and Baziar, M. H. (1992). “Modeling of Lateral Spreads in Silty Sands bySliding Soil Blocks.” Stability and Performance of Slopes and Embankments II. ConferenceProceeding. pp. 625-652.Elms, D. G. (2000). “Refinements to the Newmark Sliding Block Model.” 12WCEE. NewZeeland. Paper 2132.Fellenius W. (1936). “Calculation of the Stability of the Earth Dams.” Transactions of theSecond Congress on Large Dams. Washington 1936; 4445.Goodman, R. E. and Seed, H. B. (1965). “Displacements of Slopes in CohesionlessMaterials During Earthquakes.” Rep. No. H21. Inst. of Trans. and Trafic Engineering,University of California, Berkeley, California.Houston S. L., Houston W. N. and Padilla J. M. (1987). “Microcomputer-aided Evaluationof Earthquake-Induced Permanent Slope Deformation.” Journal of Microcomputers in CivilEngineering. 2(3), 207-222.Hutchinson, J. N. (1995) “Keynote paper: Landslide Hazard Assessment.” Proc. 6thInternational symposium of landslides. Christchurch 3, 1805-1841, Balkema, Rotterdam.Kramer, S. L. and Smith, M. W. (1997). “Modified Newmark Model for SeismicDisplacements of the Compliant Slopes.” Journal of Geotechnical Engineering. ASCE, 123(7), 635-644.Leroueil, S. (2001). “Natural Slopes and Cuts: Movement and Failure Mechanisms.”Geotechnique. 51-3 pp 197-243.Makdisi, F. I. and Seed, H. B. (1978). “Simplified Procedure for Estimating Dam andEmbankment Earthquake-Induced Deformations.” Journal of Geotechnical Engineering.ASCE, 104 (7), 849-867.30
Modelo Bidimensional No Lineal para el Análisis del Comportamiento Dinámico de Estructuras TérreasMéndez, BC (2004). “Investigación experimental de la fricción dinámica en una interfazmadera sobre madera.” Tesis de maestría. Universidad Nacional Autónoma de México,México, DFMéndez, B. C. and Romo, M. P., 2005a. “Transition from the static to the kineticcoefficient of friction.” Proceedings of the 11th international conference of IACMAG,Turin, Italy.Méndez, B. C. and Romo, M. P., 2005b. “Experiments on frictional behavior of a slidingblock.” Engineering Institute publications, UNAM, México, DF, 39 pp (in press).Nadim, F. and Whitman, R. V. (1983). “Seismically Induced Movement of RetainingWalls.” Journal of the Geotechnical Engineering Division. ASCE. 1983; 109 (GT7): 915-31.Newmark, N. M. (1963). “Earthquake Effects on Dams and Embankments.” Presented atthe October 7-11, ASCE Struct. Eng. Conf., San Francisco.Newmark, N. M. (1965).” Effects of Earthquakes on Dams and Embankments.”Geotechnique. 15 (2), 139-160.Sarma, S. K. and Chlimintzas, G. O. (2001). “Co-seismic & Post-seismic Displacements ofSlopes.” XV ICSMEG TC4. Satellite Conference on “Lessons Learned from Recent StrongEarthquakes”. 25 august, 2001, Istanbul, Turkey. 183-188.Rathje, E. M and Bray, J. D. (2000). “Nonlinear Coupled Seismic Analysis of EarthStructures.” Journal of Geotechnical and Geoenvironmental Engineering. ASCE, 2000;126 (11): 1002-1014.Richards, R. J. and Elms, D. (1979). “Seismic Behavior of Gravity Retaining Walls.”Journal of the Geotechnical Engineering Division. ASCE, Vol. 105, No. GT4, Apr., pp449-464.Romo, M. P. (1971). “Análisis de Estabilidad de Taludes en Términos de susDeformaciones Exteriores.” Tesis de Maestría. Universidad Nacional Autónoma deMéxico.Romo, M. P. y Reséndiz, D. (1980). “Computed and Observed Deformation of TwoEmbankment Dams Under Seismic Loading.” International Conference on Design of Damsto Resist Earthquake, The Institution of Civil Engineers, London, pp 219-226, October 1 y2.Romo, M. P. y Aguilar, J. I. (1995). “Desplazamientos Permanentes en TerraplenesCausados por Sismos.” Informe Instituto de Ingeniería. Universidad Nacional Autónomade México, México.Romo, M. P. (1995). “Clay Behavior, Ground Response and Soil-Structure Interaction;Studies in Mexico City.” Third International Conference on Recent Advances inGeotechnical Earthquake Engineering and Soil Dynamics, St. Louis Missouri, 2: 1039.Sarma, S. K. and Chlimintzas, G. O. (2001). “Co-seismic & Post-seismic Displacements ofSlopes.” XV ICSMEG TC4. Satellite Conference on “Lessons Learned from Recent StrongEarthquakes” 25 august, 2001, Istanbul, Turkey. 183-188.31
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