Tribunal titular

Cargo

Departamento

Profesor

Presidente

TECN.MINERA,TOPOGRAF. Y ESTRUC

VALLEPUGA ESPINOSA , JOSE

Secretario

TECN.MINERA,TOPOGRAF. Y ESTRUC

ORTIZ MARQUES , ALMUDENA

Vocal

ING.MECANICA,INFORMAT.AEROESP.

UBERO MARTINEZ , IVAN

Tribunal suplente

Cargo

Departamento

Profesor

Presidente

ING.MECANICA,INFORMAT.AEROESP.

PEREZ GARCIA , HILDE

Secretario

INGENIERIA Y CIENCIAS AGRARIAS

GUERRA ROMERO , MANUEL IGNACIO

Vocal

INGENIERIA Y CIENCIAS AGRARIAS

AGUADO RODRIGUEZ , PEDRO JOSE

AENOR: Eurocódigo 3: Proyecto de estructuras de acero. Parte 1-1: Reglas generales y reglas para la edificación (Suplemento de la UNE-ENV 1.993-1-1). Madrid.***- Argüelles Álvarez, R. et al. (2.005): Estructuras de acero. Tomo I: Cálculo. Tomo II: Uniones y sistemas estructurales. Madrid. Librería Técnica Bellisco. *** B.O.E. Real Decreto 470/2021, de 29 de Junio por el que se aprueba el CÓDIGO ESTRCTURAL (Martes 10 de Agosto de 2021). ***-GOBIERNO DE ESPAÑA. Ministerio de Transportes, Movilidad y Agenda Urbana. Subsecretaria. Secretaria General Técnica. Centro de Publicaciones (2.021):CÓDIGO ESTRUCTURAL. Volumen I Real Decreto y Articulado, Volumen IV Dimensionamiento y Comprobación de Estructuras de Acero y Volumen V Dimensionamiento y comprobación de estructuras mixtas hormigón-acero.- Instituto Técnico de la Construcción de Acero (ITEA): ESDEP. Programa Europeo de Formación en Cálculo y Diseño de la Construcción en Acero .Versión española En CD-ROM. - Marco García, J. (2.000): Curso básico de cálculo y diseño de estructuras metálicas en ordenador (adaptado al Eurocódigo 3 y al LRFD). Madrid. Mc Graw Hill. ***- Monfort Lleonart, J. (2.006): Estructuras metálicas para la edificación (adaptado al C.T.E.). Valencia. Universidad Politécnica de Valencia. ***- Ministerio de la Vivienda y B.O.E. (2.006): Código Técnico de la Edificación (C.T.E.). Colección Separatas del BOE. - Vayas, I, et al. (2.019): Design of Steel Structures to Eurocodes. Switzerland. Springer.

Topic	Sub-topic
Block I: BASIS OF DESIGN	Subject 1.- STEEL AS A CONSTRUCTION MATERIAL. REGULATIONS. Subject 2.- SHARES. CALCULATION METHODS. SECTION CLASSES. Subject 3.- PLASTICATION CRITERIA. ELASTO-PLASTIC CALCULATION. LINEAR AND NON-LINEAR STUDY.
Block II: SECTION ANALYSIS	Subject 1.- ANALYSIS OF NORMAL STRESS SECTIONS. Subject 2.- ANALYSIS OF SECTIONS AT BENDING MOMENT. Subject 3.- ANALYSIS OF SHEAR STRESS SECTIONS. Subject 4.- ANALYSIS OF TORSOR MOMENT SECTIONS.
Block III: STRUCTURAL DESIGN	Subject 1.- TENSION MEMBERS. Subject 2.- MEMBERS IN COMPRESSION. BUCKLING. Subject 3.- MEMBERS IN FLEXION. LATERAL BUCKLING. Subject 4.- MEMBERS REQUIRED TO COMBINED STRESSES.
Block IV: JOINTING METHODS	Subject 1.- DESIGN AND CALCULATION OF WELDED JOINTS Subject 2.- DESIGN AND CALCULATION OF BOLTED JOINTS. Subject 3.- STRUCTURAL MEMBERS JOINTS
Block V: INDUSTRIAL CONSTRUCTIONS	Subject 1.- INDUSTRIAL BUILDINGS. FRAMED STRUCTURES. Subject 2.- QUALITY CONTROL. TOLERANCES. PATHOLOGY.

Methodologies :: Tests
	Class hours	Hours outside the classroom	Total hours
Problem solving, classroom exercises	19.5	29.25	48.75

Tutorship of group	0.5	0.75	1.25

Lecture	34	51	85

Mixed tests	6	9	15

(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students.

	Description
Problem solving, classroom exercises	The professor will guide students in the application of theoretical concepts and results to problem solving, encouraging critical reasoning at all times. Exercises will be proposed and students will solve them, thus acquiring skills in the use of the necessary tools for problem solving.
Tutorship of group	To guide the student in his learning so that he becomes an autonomous, competent and critical learner in his workplace.
Lecture	Theoretical classes where the theoretical bases of the subject will be exposed, reasoned and deduced. At the end of each section, simple exercises will be solved to clarify the theory explained.

	Description	Qualification
Mixed tests	There will be two types of written tests: 1.- Final exam of the whole course ....... 80% 2.- Periodic individual work and final work to be done by the student ..,,,,,,,,,,,,,,,,,.... 20%	100%

Other comments and second call

	Competences
Knows and applies their knowledge to their work or vocation in a professional manner and possesses the competencies usually demonstrated through the development and defense of arguments and problem solving within their field of study. and defense of arguments and problem solving within their area of study. Conveys information, ideas, problems and solutions to both specialized and non-specialized audiences. Is qualified for the drafting, signing and development of projects in the field of industrial engineering that have as an object, in accordance with the knowledge acquired, the construction, reform, reform, renovation, construction, repair and maintenance of buildings. the construction, renovation, repair, conservation, demolition, manufacture, installation, assembly or operation of: structures, mechanical equipment, energy installations, electrical and electronic installations, electrical and electronic systems, energy installations, electrical and electronic installations, industrial installations and plants, and manufacturing and automation processes. Knows basic and technological subjects, which enables them to learn new methods and theories, and gives them the versatility to adapt to new situations. Analyzes, synthesizes, solves and makes decisions when faced with problems proposed in Steel Structures. Knows the calculation of steel structures for different stresses.

Basic
	STEEL STRUCTURES AENOR: Eurocódigo 3: Proyecto de estructuras de acero. Parte 1-1: Reglas generales y reglas para la edificación (Suplemento de la UNE-ENV 1.993-1-1). Madrid.*- Argüelles Álvarez, R. et al. (2.005): Estructuras de acero. Tomo I: Cálculo. Tomo II: Uniones y sistemas estructurales. Madrid. Librería Técnica Bellisco. * B.O.E. Real Decreto 470/2021, de 29 de Junio por el que se aprueba el CÓDIGO ESTRCTURAL (Martes 10 de Agosto de 2021). *-GOBIERNO DE ESPAÑA. Ministerio de Transportes, Movilidad y Agenda Urbana. Subsecretaria. Secretaria General Técnica. Centro de Publicaciones (2.021):CÓDIGO ESTRUCTURAL. Volumen I Real Decreto y Articulado, Volumen IV Dimensionamiento y Comprobación de Estructuras de Acero y Volumen V Dimensionamiento y comprobación de estructuras mixtas hormigón-acero.- Instituto Técnico de la Construcción de Acero (ITEA): ESDEP. Programa Europeo de Formación en Cálculo y Diseño de la Construcción en Acero .Versión española En CD-ROM. - Marco García, J. (2.000): Curso básico de cálculo y diseño de estructuras metálicas en ordenador (adaptado al Eurocódigo 3 y al LRFD). Madrid. Mc Graw Hill. - Monfort Lleonart, J. (2.006): Estructuras metálicas para la edificación (adaptado al C.T.E.). Valencia. Universidad Politécnica de Valencia. **- Ministerio de la Vivienda y B.O.E. (2.006): Código Técnico de la Edificación (C.T.E.). Colección Separatas del BOE. - Vayas, I, et al. (2.019): Design of Steel Structures to Eurocodes. Switzerland. Springer.
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