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Materia No Vigente |
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Disciplina asociada:Ingeniería civil |
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Escuela:
Ingeniería y Ciencias
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Departamento Académico:
Tecnologías Sostenibles y Civil
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Programas académicos: |
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Requisitos:(Haber Aprobado CV00863) |
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Equivalencia:CV95891 ; CV3003 |
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Intención del curso en el contexto general del plan de estudios: |
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Es un curso de nivel avanzado orientado a integrar las herramientas de ingeniería estructural para efectuar el análisis y diseño de estructuras de concreto reforzado sujetas a cargas gravitacionales, sísmicas y eólicas. Requiere conocimientos previos de equilibrio, análisis de estructuras isostáticas e hiperestáticas (vigas y marcos), concepto de rigidez, ecuación de la deformada, diagramas de corte y momento, círculo de Mohr, momento curvatura de elementos viga, mecanismos de colapso y diseño de elementos de concreto reforzado (vigas, columnas y losas). Como resultado de aprendizaje se espera que el alumno diseñe un edificio de concreto reforzado sujeto a cargas gravitacionales y accidentales. |
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Objetivo general de la Unidad de Formación: |
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| Deflexiones en vigas. Diseño de columnas esbeltas y en flexión biaxial. Análisis y diseño de marcos sujetos a cargas vivas, muertas, sismo y viento. Diseño de losas. Diseño de cimentaciones. Diseño de muros de contención. Diseño de muros de cortante. | |||||
Técnica didáctica sugerida: |
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| No especificado | |||||
Bibliografía sugerida: |
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LIBROS DE TEXTO: * American Concrete Institute., Reglamento para las construcciones de concreto estructural y comentarios ACI 318-95 y ACI 318-r95., IMCYC, 1997, Español, 968464003X. * Bowles, Joseph E., Foundation analysis and design, 5a ed., McGraw Hill College Div, 1996, Inglés, * Manual de diseño de obras civiles-diseño por viento y sismo-IIE 93, * Manual of Steel Construction, Load and Resistance Factor Design, Vols. I and II, Segunda edición, American Institute of Steel Construction, 1992, * Reglamento de las construcciones de concreto reforzado (ACI-318-95), Instituto Mexicano del Cemento y el Concreto A.C. (IMCYC), * Edward G. Nawy, Reinforced concrete, 3rd edition, Prentice-Hall International, 1996, * E. G. Nawy, Reinforced Concrete - A Fundamental Approach, Prentice Hall, * MacGregor, James G., Reinforced concrete : mechanics and design, 3a ed., Prentice Hall, 1996, Inglés, * Hassoun, M. Nadim y Michael Mamlouk, Structural concrete : theory and design, Addison-Wesley Pub Co, 1998, Inglés, LIBROS DE CONSULTA: * Nilson, Arthur H., Design of concrete structures, 12a ed., McGraw Hill College Div, 1997, Inglés, * Gaylord, Edwin Henry y James Stallmeyer, Design of steel structures., 3a ed., McGraw Hill College Div, 1991, Inglés, * Adams, P. F., Limit states design in structural steel, 6a ed., Canadian Institute of Steel Construction, Inglés, * SEGUI, WILLIAM T., LRFD steel design, 2a. Ed., Pws Kent Pub Co, 1999, * Rabbat, Basile G, Notes On ACI 318-89, Building Code Requirements For Reinforced Concrete : With Design Applications, 5 ed, * Nawy, Edward G., Prestressed concrete : a fundamental approach, 3a ed., Prentice Hall, 2000, Inglés, * Salmon, Charles G. y John Johnson, Steel structures : design and behavior : emphasizing load and resistance factor design, 4a ed., Addison-Wesley Pub Co, 1996, Inglés, * McCormac, Jack C., Structural steel design : lrfd method, 2a ed., Addison-Wesley Pub Co, 1995, Inglés, * Brockenbrough, R. L.; Merritt, Frederick S., Structural steel designer's handbook, 3a. Ed., Mc Graw Hill, 1999, * Galambos, T. V., Basic Steel Design With LRFD, |
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Perfil del Profesor: |
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(140801)Maestría en Ingeniería Civil ; (140801)Doctorado en Ingeniería Civil CIP: 140801 |
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Discipline:Civil Engineering |
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School:
Engineering and Sciences
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Academic Department:
Sustainable and Civil Technologies
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Programs: |
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Prerequisites:( CV00863) |
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Equivalences:CV95891 ; CV3003 |
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Course intention within the general study plan context: |
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It is an advanced level course oriented to integrate the stuctural engineering tools to carry out the analysis and design of strengthened concrete structures subject to gravitational, sysmic and eolic loads. Requires previous knowledge in equilibrium, isostatic and hyperstatic elements (beams and frameworks) elements, rigidity concepts, deformed equation, cut and moment diagram, Mohr circle, curvature moments of beam elements, collapse mechanisms and strengthened concrete elements design (beams, columns and slabs). As learning result it is expected that the student designs a strengthened concrete building subject to accidental and gravitational loads. |
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Course objective: |
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| Details of reinforcement. Biaxial flexion. Square footing design. Rectangular footing design. Punching in footings. Combined footing design (floors). Combined footing design (beams). Design of cantilever load-bearing walls. Design of curtain walls. Design of a reinforced-concrete building. Design of bolted and welded connections. Design of sheet roofing systems. Design of slab-and-joist floor systems. Design of concrete floor systems supported by perimetric steel beams. Design of floor systems made of joist sheet concrete. Brace and wind beam systems. Design of base plates and anchors for axial loads and moments. Design of gusset plate sections. Design of an factory building. Design of a steel building. | |||||
Teaching and learning tecniques: |
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| Not Specified | |||||
Suggested Bibliography: |
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TEXT BOOKS: * American Concrete Institute., Reglamento para las construcciones de concreto estructural y comentarios ACI 318-95 y ACI 318-r95., IMCYC, 1997, Español, 968464003X. * Bowles, Joseph E., Foundation analysis and design, 5a ed., McGraw Hill College Div, 1996, Inglés, * Manual de diseño de obras civiles-diseño por viento y sismo-IIE 93, * Manual of Steel Construction, Load and Resistance Factor Design, Vols. I and II, Segunda edición, American Institute of Steel Construction, 1992, * Reglamento de las construcciones de concreto reforzado (ACI-318-95), Instituto Mexicano del Cemento y el Concreto A.C. (IMCYC), * Edward G. Nawy, Reinforced concrete, 3rd edition, Prentice-Hall International, 1996, * E. G. Nawy, Reinforced Concrete - A Fundamental Approach, Prentice Hall, * MacGregor, James G., Reinforced concrete : mechanics and design, 3a ed., Prentice Hall, 1996, Inglés, * Hassoun, M. Nadim y Michael Mamlouk, Structural concrete : theory and design, Addison-Wesley Pub Co, 1998, Inglés, BOOKS FOR CONSULTATION: * Nilson, Arthur H., Design of concrete structures, 12a ed., McGraw Hill College Div, 1997, Inglés, * Gaylord, Edwin Henry y James Stallmeyer, Design of steel structures., 3a ed., McGraw Hill College Div, 1991, Inglés, * Adams, P. F., Limit states design in structural steel, 6a ed., Canadian Institute of Steel Construction, Inglés, * SEGUI, WILLIAM T., LRFD steel design, 2a. Ed., Pws Kent Pub Co, 1999, * Rabbat, Basile G, Notes On ACI 318-89, Building Code Requirements For Reinforced Concrete : With Design Applications, 5 ed, * Nawy, Edward G., Prestressed concrete : a fundamental approach, 3a ed., Prentice Hall, 2000, Inglés, * Salmon, Charles G. y John Johnson, Steel structures : design and behavior : emphasizing load and resistance factor design, 4a ed., Addison-Wesley Pub Co, 1996, Inglés, * McCormac, Jack C., Structural steel design : lrfd method, 2a ed., Addison-Wesley Pub Co, 1995, Inglés, * Brockenbrough, R. L.; Merritt, Frederick S., Structural steel designer's handbook, 3a. Ed., Mc Graw Hill, 1999, * Galambos, T. V., Basic Steel Design With LRFD, |
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Academic credentials required to teach the course: |
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(140801)Master Degree in Civil Engineering and (140801)Doctoral Degree in Civil Engineering CIP: 140801 |
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