Structural Management (250474) – Course 2024/25 PDF
Syllabus
Learning Objectives
Specialization subject in which knowledge on specific competences is intensified. Knowledge and skills at specialization level that permit the development and application of techniques and methodologies at advanced level. Contents of specialization at master level related to research or innovation in the field of engineering. Knowledge regarding the correct performance of the structure in the service life, ie, all those aspects that arise once the structure has been built and put into service. Define the concepts that allow a good durability and appropriate management of this structure given the progressive deterioration of materials and the variation of the imposed actions
Competencies
Especific
Knowledge of all kinds of structures and materials and the ability to design, execute and maintain structures and buildings for civil works.
Knowledge of and competence in the application of advanced structural design and calculations for structural analysis, based on knowledge and understanding of forces and their application to civil engineering structures. The ability to assess structural integrity.
Transversal
ENTREPRENEURSHIP AND INNOVATION: Being aware of and understanding the mechanisms on which scientific research is based, as well as the mechanisms and instruments for transferring results among socio-economic agents involved in research, development and innovation processes.
SUSTAINABILITY AND SOCIAL COMMITMENT: Being aware of and understanding the complexity of the economic and social phenomena typical of a welfare society, and being able to relate social welfare to globalisation and sustainability and to use technique, technology, economics and sustainability in a balanced and compatible manner.
TEAMWORK: Being able to work in an interdisciplinary team, whether as a member or as a leader, with the aim of contributing to projects pragmatically and responsibly and making commitments in view of the resources that are available.
Total hours of student work
Hours | Percentage | |||
---|---|---|---|---|
Supervised Learning | Large group | 25.5h | 56.67 % | |
Medium group | 9.8h | 21.67 % | ||
Laboratory classes | 9.8h | 21.67 % | ||
Self Study | 80h |
Teaching Methodology
The course consists of 1,8 hours per week of classroom activity (large size group) and 0,8 hours weekly with half the students (medium size group). The 1,8 hours in the large size groups are devoted to theoretical lectures, in which the teacher presents the basic concepts and topics of the subject, shows examples and solves exercises. The 0,8 hours in the medium size groups is devoted to solving practical problems with greater interaction with the students. The objective of these practical exercises is to consolidate the general and specific learning objectives. The rest of weekly hours devoted to laboratory practice. Support material in the form of a detailed teaching plan is provided using the virtual campus ATENEA: content, program of learning and assessment activities conducted and literature. Although most of the sessions will be given in the language indicated, sessions supported by other occasional guest experts may be held in other languages.
Grading Rules
The evaluation calendar and grading rules will be approved before the start of the course.
Test Rules
Failure to perform a continuous assessment activity in the scheduled period will result in a mark of zero in that activity.
Office Hours
Thursday from 16.00 to 18.00
Bibliography
Basic
- Calavera Ruiz, J. Patología de estructuras de hormigón armado y pretensado. 2a ed. Madrid: INTEMAC, 2005. ISBN 8488764219.
- Schneider, J.; Vrouwenvelder, T. Introduction to safety and reliability of structures. 3rd. rev. ext. ed. Zürich: International Association for Bridge ans Structural Engineering, 2017. ISBN 9783857481512.
- Melchers, R.E.; Beck, A.T. Structural reliability: analysis and prediction. 3rd ed. Hoboken, NJ: John Wiley & Sons, 2018. ISBN 9781119266105.
- GEHO-ATEP. Reparación y refuerzo de estructuras de hormigón: guía FIP de buena práctica. Madrid: Colegio de Ingenieros de Caminos, Canales y Puertos, 1994. ISBN 8438000797.
- Colegio Ingenieros de Caminos, Canales y Puertos ; Grupo Español del Hormigón (GEHO-CEB). Durabilidad de estructuras de hormigón: guía de diseño CEB. 2a ed. Madrid: GEHO-CEB, 1996. ISBN 8474931835.
Complementary
- Dirección General de Carreteras. Guía de inspecciones básicas de obras de paso: red de carreteras del estado. Madrid: Centro de Publicaciones, Ministerio de Fomento, 2009. ISBN 9788449808616.
- Casas, J.R. La enseñanza de la gestión de estructuras: una necesidad. Barcelona: Colegio de Ingenieros de Caminos, Canales y Puertos, 1999.
- Ministerio de Obras Públicas y Transportes (MOPT), Dirección General de Carreteras. Inspecciones principales de puentes de carretera. Madrid: MOPT, 1988. ISBN 8474335469.
- Task Group 5.6. Model code for service life design. Lausanne: International Federation for Structural Concrete (fib), 2006. ISBN 2883940746.