المؤلفون: Gualavisí Limaico, Mario Steven

المساهمون: Molina Herrera, Maritzabel, Villalba Morales, Jesús Daniel, Análisis, Diseño y Materiales Gies

المصدر: Repositorio UN
Universidad Nacional de Colombia
instacron:Universidad Nacional de Colombia

مصطلحات موضوعية: Metallic yielding dampers, Diseño sismo resistente, Energy dissipation, Ingeniería sísmica, Disipadores metálicos de fluencia, Passive seismic control, 624 - Ingeniería civil [620 - Ingeniería y operaciones afines], Disipación de energía, Earthquake resistant design, Disipadores tipo Comb-Teeth, Comb-Teeth dampers, Earthquake engineering, Dispersión energética, Sistemas de control pasivo

وصف الملف: application/pdf

URL الوصول: https://explore.openaire.eu/search/publication?articleId=dedup_wf_001::9818d118bc81179601b223b9c727d76c
https://repositorio.unal.edu.co/

المؤلفون: Gualavisí Limaico, Mario Steven

المساهمون: Molina Herrera, Maritzabel, Villalba Morales, Jesús Daniel, Análisis, Diseño y Materiales Gies

مصطلحات موضوعية: 620 - Ingeniería y operaciones afines::624 - Ingeniería civil, Earthquake engineering, Earthquake resistant design, Energy dissipation, Ingeniería sísmica, Diseño sismo resistente, Dispersión energética, Disipadores tipo Comb-Teeth, Sistemas de control pasivo, Disipación de energía, Disipadores metálicos de fluencia, Comb-Teeth dampers, Passive seismic control, Metallic yielding dampers

وصف الملف: vi, 224 páginas; application/pdf

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Duque, “Situación de las técnicas de control de respuesta sísmica en Colombia,” Rev. EIA, vol. 12, pp. 113–124, 2009.; J. Pimiento, A. Salas, and D. Ruiz, “Desempeño sísmico de un pórtico con disipadores de energía pasivos de placas ranuradas de acero,” Rev. Ing. Constr., vol. 29, no. 3, pp. 283–298, 2014.; S. Garivani, A. A. Aghakouchak, and S. Shahbeyk, “Seismic Behavior of Steel Frames Equipped with Comb-Teeth Metallic Yielding Dampers,” Int. J. Steel Struct., vol. 19, no. 4, pp. 1070–1083, 2019.; S. Garivani, A. A. Aghakouchak, and S. Shahbeyk, “Numerical and experimental study of comb-teeth metallic yielding dampers,” Int. J. Steel Struct., vol. 16, no. 1, pp. 177–196, 2016.; V. Budaházy, “Uniaxial cyclic steel behavior and model for dissipative structures Theses of the PhD Dissertation Supervisor,” 2015.; R. K. Mohammadi, A. Nasri, and A. Ghaffary, “TADAS dampers in very large deformations,” Int. J. Steel Struct., vol. 17, no. 2, pp. 515–524, 2017.; T. Paulay and M. J. N. Priestley, “Seismic Design Of Reinforced Concrete And Masonry Buildings.” Wiley,New York, 1992.; M. J. N. Priestley, G. M. Calvi, and M. J. Kowalsky, “Displacement-Based Seismic Design of Structures. IUSS Press.” 2007.; C. Christopoulos and A. Filiatrault, “Principles of Passive Supplemental Damping and Seismic Isolation.” IUSS Press, 2006.; M. Mahmoudi and M. Zaree, “Determination the response modification factors of buckling restrained braced frames,” Procedia Eng., vol. 54, no. 2005, pp. 222–231, 2013.; M. C. Constantinou, T. T. Soong, and G. F. Dargush, Passive Energy Dissipation Systems for Structural Design and Retrofit. Multidisciplinary Center for Earthquake Engineering Research, 1998.; Keh-Chyuan Tsai, Huan-Wei Chen, Ching-Ping Hong, and Yung-Feng Su, “Design of steel triangular plate energy absorbers for seismic-resistant construction,” Earthquake Spectra, vol. 9, no. 3. pp. 505–528, 1993.; S. Garivani, “Experimental and numerical study of metallic yielding damper with appropriate characteristics for application in simple steel frames,” Tarbiat Modares University (In persian), 2015.; D. R. Teruna, T. A. Majid, and B. Budiono, “Experimental study of hysteretic steel damper for energy dissipation capacity,” Adv. Civ. Eng., vol. 2015, no. Figure 2, 2015.; V. Budaházy and L. Dunai, “Parameter-refreshed Chaboche model for mild steel cyclic plasticity behavior,” Period. Polytech. Civ. Eng., vol. 57, no. 2, pp. 139–155, 2013.; G. Cailletaud, K. Saï, and L. Taleb, Multi-mechanism Modeling of Inelastic Material Behavior, vol. 11, no. 19. London: John Wiley & Sons, Inc., 2018.; M. G. Lee and F. Barlat, Modeling of Plastic Yielding, Anisotropic Flow, and the Bauschinger Effect, vol. 2. Elsevier, 2014.; J. L. Chaboche and G. Rousselier, “On the plastic and viscoplastic constitutive equations, Parts I and II,” J. Press. Vessel Technol. Trans. ASME, vol. 105, no. 2, pp. 153–158, 1983.; J. L. J.-L. Chaboche, Mechanics of solid materials, vol. 19, no. 1. Cambridge University Press, 1994.; M. Ottosen, N. S., Ristinmaa, “The mechanics of constitutive modeling,” Elsevier, 2005.; G. R. Bhashyam, “ANSYS Mechanical — A Powerful Nonlinear Simulation Tool,” ANSYS, Inc., 2002.; Ansys Inc., “Mechanical APDL Element Reference,” no. November. Ansys Inc., Canonsburg, PA, 2010.; M. K. Thompson and J. M. Thompson, ANSYS Mechanical APDL for Finite Element Analysis. 2017.; V. Budaházy and L. Dunai, “Chaboche-based cyclic material model for steel and its numerical application,” Proc. 9th fib Int. PhD Symp. Civ. Eng., pp. 555–560, 2012.; S. F. Jacques Besson, Georges Cailletaud, Jean-Louis Chaboche, Non-Linear Mechanics of Materials. Netherlands: Springer, 2010.; J. L. Chaboche and D. Nouailhas, “Constitutive modeling of ratchetting effects-part I: Experimental facts and properties of the classical models,” J. Eng. Mater. Technol. Trans. ASME, vol. 111, no. 4, pp. 384–392, 1989.; Y. Huang, “Simulating the Inelastic Seismic Behavior of Steel Braced Frames Including the Effects of Low-Cycle Fatigue,” University of California, Berkeley, 2009.; S. Ahn, T., Kim, Y., Park, J., Kim H., Jang, D., Oh, “Development of New Steel Damper for Seismic Retrofit of Existing Structures,” 15th World Conf. Earthq. Eng., 2012.; K. Ghabraie, R. Chan, X. Huang, and Y. M. Xie, “Shape optimization of metallic yielding devices for passive mitigation of seismic energy,” Eng. Struct., vol. 32, no. 8, pp. 2258–2267, 2010.; H. Hernandez Ramirez and A. Tena Colunga, “Evaluación Del Diseño Sísmico Resiliente Conforme Al Método De Las Fuerzas De Marcos Dúctiles De Acero Con Disipadores De Energía Histeréticos,” Rev. Ing. Sísmica, vol. 76, no. 98, p. 45, 2018.; AISC, Steel Construction Manual, 15 th. American Institute of Steel Construction, 2017.; AISC, “Specification for Structural Steel Buildings, ANSI / AISC 360-16,” Am. Inst. Steel Constr., p. 676, 2016.; AISC, “Seismic Provisions for Structural Steel Buildings, ANSI/AISC 341-16,” Am. Inst. Steel Constr., pp. 355–410, 2016.; ANSI/AISC 358-16, “Prequalified connections for pecial and intermediate steel moment frames for seismic applications,” Am. Inst. Steel Constr., no. 1, p. 284, 2016.; American Institute of Steel Construction, Steel Design Guide 29: Vertical Bracing Connections — Analysis and Design. AISC, 2014.; Z. Li, G. Shu, and Z. Huang, “Development and cyclic testing of an innovative shear-bending combined metallic damper,” J. Constr. Steel Res., vol. 158, pp. 28–40, 2019.; M. Seif, J. Main, J. Weigand, T. P. McAllister, and W. Luecke, “Finite element modeling of structural steel component failure at elevated temperatures,” Structures, vol. 6, pp. 134–145, 2016.; J. Montgomery, “Methods for Modeling Bolts in the Bolted Joint,” ANSYS User’s Conf., no. Figure 2, p. 15, 2002.; American Society of Civil Engineers, ASCE standard, ASCE/SEI, 41-17, seismic evaluation and retrofit of existing buildings, no. June. 2017.; EN1993-1-5, “Eurocode 3: Design of steel structures - Part 1-5: General rules - Plated structural elements,” CEN, Brussels, vol. 5, no. 2006, p. 53, 2006.; https://repositorio.unal.edu.co/handle/unal/80880; Universidad Nacional de Colombia; Repositorio Institucional Universidad Nacional de Colombia; https://repositorio.unal.edu.co/

الاتاحة: https://repositorio.unal.edu.co/handle/unal/80880
https://repositorio.unal.edu.co/

المؤلفون: Tsvetan Dimitrov, S. Kozhukharov, Nikolay Velinov

المصدر: Boletín de la Sociedad Española de Cerámica y Vidrio, Vol 56, Iss 2, Pp 55-63 (2017)

مصطلحات موضوعية: Pigments, X-ray Diffraction spectroscopy, Energy Dispersion X-ray spectroscopy, Resonancia electrónica paramagnética, Scanning electron microscope, Analytical chemistry, Oxide, 02 engineering and technology, Microscopia electrónica de barrido, 01 natural sciences, Industrial and Manufacturing Engineering, law.invention, lcsh:TP785-869, Pigmentos, chemistry.chemical_compound, Dopants, law, Dispersión energética de rayos X, 0103 physical sciences, Mössbauer spectroscopy, Calcination, Ceramic, Electron paramagnetic resonance, Spectroscopy, 010302 applied physics, Dopant, Chemistry, Dopantes, Espectroscopia de Mössbauer, Espectroscopia de difracción de rayos X, 021001 nanoscience & nanotechnology, Electron Paramagnetic Resonance, lcsh:Clay industries. Ceramics. Glass, Mechanics of Materials, visual_art, Ceramics and Composites, visual_art.visual_art_medium, Scanning Electron Microscopy, 0210 nano-technology

URL الوصول: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::7cc153912d530599797336b744922317
https://doi.org/10.1016/j.bsecv.2016.11.001