Type A
|
Code |
Competences Specific | | A18 |
Ability to conceive, calculate, design and integrate foundation solutions into buildings and urban developments. |
| A31 |
Adequate knowledge of solid, continuous media and soil mechanics. |
Type B
|
Code |
Competences Transversal | | B1 |
Learning to learn |
| B2 |
Resoldre problemes complexos de forma efectiva en el camp de l'Arquitectura. |
| B3 |
Critical, logical and creative thinking, and an ability to innovate |
| B4 |
Autonomy, responsibility and initiative |
| B6 |
Clear and effective communication of information, ideas, problems and solutions in public or a specific technical field |
| B7 |
Sensitivity to environmental issues |
| B8 |
Management of complex technical or professional projects |
Type C
|
Code |
Competences Nuclear | | C2 |
Be advanced users of the information and communication technologies |
| C3 |
Be able to manage information and knowledge |
| C4 |
Be able to express themselves correctly both orally and in writing in one of the two official languages of the URV |
Type A
|
Code |
Learning outcomes |
| A18 |
Design of buildings and urban settlements, including design and calculation of interior distribution systems, carpentry, stairs and other finishing jobs; systems for closing off, covering and other masonry, and foundations.
| | A31 |
Understanding of construction pathologies, construction methods and techniques for conserving, restoring and renovation of civil work, foundations, structures and other structural and finishing work.
|
Type B
|
Code |
Learning outcomes |
| B1 |
Adapt the learning objectives put forward by the teaching staff.
| | B2 |
Transfer classroom exercises and the cases they have studied to real situations in other environments.
| | B3 |
Analyze the risks and benefits of innovation.
| | B4 |
Use data to take correct decisions.
| | B6 |
Structure their presentations and comply with any requirements should there be any.
| | B7 |
Understand the tools and the processes for applying criteria of sustainability to design and evaluate solutions.
| | B8 |
Identify possible risks inherent to projects
|
Type C
|
Code |
Learning outcomes |
| C2 |
Understand the operating system as a hardware manager and the software as a working tool.
| | C3 |
Critically evaluate information and its sources, and add it to their own knowledge base and system of values.
| | C4 |
Produce written texts that are appropriate to the communicative situation
|
Topic |
Sub-topic |
- INTRODUCTION TO GEOTHECNIA |
Analysis of the beginnings of geotechnics and examples |
- SOIL MECHANICS |
Geotechnical characterization of the different types of existing soils |
- ROCK MECHANICS |
Geotechnical characterization of the different types of rocks |
- THE WATER TO THE LAND |
Operation of the water in the subsoil and general characteristics. Hydrogeology |
- RESEARCH INTO SITU AND LABORATORY ASSAYS |
Analysis of the different types of existing research. General characteristics |
- GEOLOGY AND GEOTHECNIA |
Relationship between geology and geotechnics. Geology and geotechnics in the Camp de Tarragona and Terres de l'Ebre |
- GEOLOGICAL RISKS AND LAND PATHOLOGIES |
Analysis of the different existing geological risks and associated pathologies of the land. Application examples. |
- FOUNDATIONS |
Analysis of the typology of the foundations according to the geotechnical characteristics of the terrain. Application examples. |
- LAND SUPPORT, CONTAINER STRUCTURES AND SLOPES |
Land scaling analysis and evaluation. Characterization of slopes. Application examples.. |
- GEOTECHNICAL STUDY |
Definition and construction of a geotechnical study. Examples in the Camp de Tarragona and Terres de l'Ebre |
Methodologies :: Tests |
|
Competences |
(*) Class hours
|
Hours outside the classroom
|
(**) Total hours |
Introductory activities |
|
2 |
1 |
3 |
Lecture |
|
30 |
40 |
70 |
Personal attention |
|
2 |
1 |
3 |
|
Practical tests |
|
2 |
10 |
12 |
Multiple-choice objective tests |
|
2 |
10 |
12 |
|
(*) On e-learning, hours of virtual attendance of the teacher. (**) The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies
|
Description |
Introductory activities |
Activities aimed at taking contact and collecting information about students and presenting the subject. |
Lecture |
Sessions to explain and understand the different themes proposed throughout the course |
Personal attention |
Personalized attention to the student in order to be able to conceive the exposed topics and proposed practical examples |
Description |
Personalized attention to the student in order to consolidate the teaching-learning of the concepts of the master sessions as well as others related to the subject directly or indirectly. Visits arranged with the teachers |
Methodologies |
Competences
|
Description |
Weight |
|
|
|
|
Practical tests |
|
Geotechnical evaluation exercises |
50 % |
Multiple-choice objective tests |
|
Resolution geotechnical issues and specific problems |
50 % |
Others |
|
|
|
|
Other comments and second exam session |
L'avaluació de l'assignatura es realitzarà de la següent forma: - Dos proves parcials tipus test i un problema a resoldre al llarg de l'assignatura -Tres exercicis pràctis obligatòris al llarg de l'assignatura: 1er-problema a resoldre amb raonament geotècnic (10%); 2on-avaluació geotècnica d'una zona (15%); 3er-resolució problema amb raonament geotècnic (15%) Termini màxim d'entrega: dos setmanes després de la seva proposta. Avaluació de l'assignatura: 60% proves parcials i 40% problemes a resoldre al llarg del curs
Segona convocatòria:en el cas de no superar el curs d'avaluació continuada es procedirà a una segona convocatòria on l'avaluació es realitzarà amb la mateixa fórmula del curs. En el cas de no realitzar els exercicis pràctics durant el curs se'n proposaran de suplementaris o de substitució a resoldre amb un termini màxim de 10 dies |
Basic |
Roset Piñol, Joaquim, Apunts de Geotècnia, 2016-2017, Moodle assignatura
González de Vallejo, Luis I., Ingenieria Geológica, 2002,
Braja M. Das, Principios de Ingeniería de Cimentaciones, 2006, Ed Thomson
González Caballero, Matilde, El Terreno, 2001, Ed. UPC
Varios autores ETSA Univ Navarra, Manual de Edificación. Mecánica de los terrenos y los cimientos, 2003, Ed. Dossat
Mañá Reixach, Fructuós, Patologies dels fonaments en l'edificació, 2008, Ed. UPC
J. A. Jiménez Salas, Geotecnia y Cimientos I, II y III, 1975, Ed. Rueda
Bielza Feliú, Ana, Manual de técnicas de Mejora del Terreno, 1999,
Ereas, Carlos, Ejercicios de Geotécnia y Cimientos, 1995, Ed. CICCP
Suriol, J; Lloret, A., Geotecnia. Reconocimiento del terreno, 1995, Ed. UPC
Torrijo, Fco Javier, Fonamentacions en l'àmbit de l'enginyeria geològica, 2011, Ed. UPV
Corominas Dulcet, J i altres, Riesgos geológicos, 1995, Ed. UPC
Anguita Virella, F., Procesos geológicos externos y geología ambiental, 1991, Ed. Rueda
Vilaplana, J; Copons, R; Escurer, J i altres, Riskat. Els riscos naturals a Catalunya, 2008, Generalitat de Catalunya
Vilaplana, J; Copons, R; Escurer, J i altres, Riskat. Els riscos naturals a Catalunya, 2008, Generalitat de Catalunya
Olivella, S.; Suriol, J.; Josa, A.; Navarro, V., Mecánica de Suelos. Problemas resueltos, 1997, Ed. UPC
Olios Martinez, Pedro J., Cimentaciones Superficiales. Diseño de zapatas, 2007, Ed. UVA
Couto, A,; López, M.J., Cimentaciones Superficiales y Estructuras de Contención. Teoria y ejercicios resueltos, 2003, Ed. Tórculo
Olivella, S.; Josa A.; Valencia F.J, Cimentaciones y estructuras de contención. Problemas resueltos, 1999, Ed. UPC
Portales Pons, Agustí, Sota rasant. Aspectes teòrics i pràctica constructiva, 2009, Ed. UPC
Torrijo Echarri, Fco Javier; Cortés Gimeno, Rafael, Cálculo geotécnico de cimentaciones, 2012, Editorial Académica Española
|
|
Complementary |
Torrijo, Fco Javier , Los suelos y las rocas en Ing. Geológica, 2007, Ed. UPV
Custodio, E., Hidrología Subterrána I i II, 2001, Ed. Omega
Sanz, Eugenio, Hidráulica Subterránea, 2013, Ed. Garceta
Valiente Ochoa, E.; , Manual del Ingeniero de edificación: guía para la inspección edílica, 2011, Ed. UPV
Serrano Alcudia, Fco, Patologia de la Edificación. El lenguaje de las grietas, 2005, Fundación Escuela de la Edificación
Cuanalo Campos, Oscar Andrés; Oliva González, Aldo Onel, Inestabilidad de laderas. Deslizamientos y factores desencadenantes, 2011, Editorial Académica Española
Cuanalo Campos, Oscar Andrés; Oliva González, Aldo Onel, Inestabilidad de laderas. Análisis geotécnico y evaluación de riesgos, 2012, Editorial Académica Española
Cuanalo Campos, Oscar Andrés; Oliva González, Aldo Onel; Gallardo Amaya, Romel, Inestabilidad de laderas. Procesos constructivos de estabilización, 2012, Editorial Académica Española
Logeais, Louis, Patología de las cimentaciones, 1984, Editorial Gustavo Gili, S.A.
|
Other sources of information with electronic resource will be provided throughout the course
Altres fonts d'informació amb recurs electrònic es facilitaran al llarg de l'assignatura |
Subjects that are recommended to be taken simultaneously |
|
|
Other comments |
It is recommended to have concepts on foundations, structures and construction processes in order to successfully consolidate the subject |
(*)The teaching guide is the document in which the URV publishes the information about all its courses. It is a public document and cannot be modified. Only in exceptional cases can it be revised by the competent agent or duly revised so that it is in line with current legislation. |
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