Geotechnical Structures
Áreas Científicas |
Classificação |
Área Científica |
OFICIAL |
Geotecnia |
Ocorrência: 2023/2024 - 2S
Ciclos de Estudo/Cursos
Sigla |
Nº de Estudantes |
Plano de Estudos |
Anos Curriculares |
Créditos UCN |
Créditos ECTS |
Horas de Contacto |
Horas Totais |
CIVD |
15 |
Study Plan |
2 |
- |
4 |
60 |
108 |
Docência - Responsabilidades
Língua de trabalho
Portuguese
Objetivos
Students should acquire the structural design knowledge and skills to use methods of stability analysis to check
the safety of geotechnical component of Civil Engineering current works, according to Eurocode 7.
Resultados de aprendizagem e competências
Design knowledge and skills of geotechnical component of geotecnical current works are reached by critical thinking,
ability to analyze real situations and achievement of valuable experience.
Modo de trabalho
Presencial
Pré-requisitos (conhecimentos prévios) e co-requisitos (conhecimentos simultâneos)
knowledge acquired in course unit Soil Mechanics.
Programa
1. Introduction to Geotechnical Structures.
2. Eurocode 7 (EC7). Presentation of the safety principles of application.
3. Direct foundations. Types and functions. Safety criteria. Failure scenarios. Simplified model of strip footing.
Bearing capacity theory generalization. Stratified media. Safety check of direct foundations.
4. Stability and stabilization works of slopes in soil. Types and causes of slope instability. Safety criteria. Methods
of analysis of global stability. Infinite length slopes. Method of slices. Stability evaluation using a commercial
software. Techniques for slope stabilization works.
5. Earth retaining structures. Earth pressures. Rest state. Active state and passive state. Rankine theory and
Coulomb theory. Rigid retaining structures: types and functions, analysis of external safety, drainage systems.
Embedded walls with one level of struts or anchorages: types and functions, safety criteria and safety analysis.
Bibliografia Obrigatória
CEN; NP EN1997-1:2010. EUROCÓDIGO 7: Projecto Geotécnico. Parte 1: Regras Gerais., Instituto Português da Qualidade, 2010
Bibliografia Complementar
Bauduin, C.; Geotechnical Engineering Handbook, Ulrich Smoltczyk, Ernst & Sohn, 2002
Bowles, J. E.; Foundation Analysis and Design, McGraw-Hill, 1996
Craig, R.F; Soil Mechanics, Chapman & Hall, 1992
Matos Fernandes, M.; Mecânica dos Solos. Introdução à Engenharia Geotécnica. Vol. 2., FEUP, 2011
Métodos de ensino e atividades de aprendizagem
The fundamental methods of stability analysis and checking of safety are presented in the theoretical lectures.
Also, building processes and design rules associated with several types of works are dealt with. Analysis and solving several problems in practical lectures. Moodle interface provides files with subjects need for the autonomous work.
Tipo de avaliação
Distributed evaluation with final exam
Componentes de Avaliação
Designation |
Peso (%) |
Teste |
80,00 |
Trabalho laboratorial |
20,00 |
Total: |
100,00 |
Componentes de Ocupação
Designation |
Tempo (Horas) |
Estudo autónomo |
45,00 |
Frequência das aulas |
45,00 |
Trabalho laboratorial |
18,00 |
Total: |
108,00 |
Obtenção de frequência
NA
Fórmula de cálculo da classificação final
Continuous Assessment:
FC= 0.4T1 + 0.4T2 + 0.2 GW
T - Test
GW - Group Work (maximum 2 students) based on a commercial software used to carry out analysis of slopes stability.
Exams Final Assessment:
EC = 100% exam