Publication in the Diário da República: Despacho nº 10366/2022 - 24/08/2022 (Parceria ESTT/ESAI)
5 ECTS; 3º Ano, Anual, 50,0 TP , Cód. 908968.
Lecturer
- Jorge Morarji dos Remédios Dias Mascarenhas (1)(2)
- Cristina Margarida Rodrigues Costa (2)
(1) Docente Responsável
(2) Docente que lecciona
Prerequisites
not applicable
Objectives
A-Special Construction Systems: Know the different special construction processes: execution techniques, execution sequences, equipment involved, advantages and disadvantages of each process.
B-Structural Systems: Understand the functioning of structural systems in buildings and their response to various actions. Understand the basic aspects of mathematical models for simulating and analyzing the structural behavior of buildings. Know the problems of structural response that may result from inadequate solutions. Analyze causes and evaluate the solutions adopted.
Program
I-Special Construction Systems
I. 1-Dams (on land, in BCC and in reinforced concrete)
I.2-Coastal works (artificial reefs, jetties, groins and ports)
I. 3-Tunnels (open sky, mechanical pre-cutting, NATM, sequential dismantling and TBM)
I.4-Reinforced concrete bridges (ground falsework, movable formwork tables, advance trolley, successive advance, launching beams and self-launchable falsework)
I. 5-Railway (ballasted and non-ballasted track)
I. 6-Swimming pools (reinforced concrete and organic)
I. 7-Special processes (climbing formwork, piezometric deposit and directed drilling)
I. 8-Rehabilitation of the water supply system
I. 9-Standardized construction: Fast food restaurants, hypermarkets, multi-brand workshops and service stations
I. 10-Prefabrication (housing and services)
I. 11- Natural engineering: Rivers, estuaries, beaches, slopes
II- Structural Systems
II.1- Bases for structural design of buildings.
II.1.1- Structural behavior of buildings. Structural system and actions. Vertical and horizontal action transmission mechanisms. Structural safety check.
II.1.2- Conditions and performance requirements of building structures. Regulatory framework.
II.1.3- Anomalies caused by poor structural design and execution errors.
II.2- Modeling and analysis of building structures.
II.2.1- Bases on structural safety analysis and verification models for buildings.
II.2.2- Analysis models of building structures subjected to vertical and horizontal actions. Seismic analysis of buildings.
II.2.3- Automatic calculation of building structures.
Evaluation Methodology
CONTINUOUS EVALUATION It comprises two practical works carried out and delivered by students during the attendance/contact period: (i) A TP-SCE practical work corresponds to the topics of Special Construction Systems, rated for 20 points; (ii) A TP-SE practical assignment corresponds to the topics of Structural Systems, rated for 20 points. The final classification corresponds to the average of the classifications obtained in each. CF = 50% TP-SCE + 50% TP-SC.
Students who obtain a final CF classification equal to or greater than 10 values are approved, with a minimum classification of 8.5 values being required in each practical work.
EVALUATION AT EXAM TIME:
It comprises two components: (i) A practical assignment (TP-SCE) corresponding to the topics of Special Construction Systems rated for 20 points, with a weight of 40% in the final classification; (ii) A written test (PE-SE) of a theoretical-practical nature, with consultation, corresponding to the topics of Structural Systems, rated for 20 points, with a weight of 60% in the final classification. The final classification corresponds to the weighted sum of the classifications obtained in each CF component = 40% TP-SCE + 60% PE-SE. Students who obtain a final CF classification equal to or greater than 10 values are approved, with a minimum classification of 8.5 values being required in each component.
Bibliography
- ., V. Regulamentos: EC0, EC1, EC2, EC7 e EC8. Lisboa: Várias
- Lopes, M. (2008). Sismos e Edifícios. Lisboa: Orion
- Travaux.(2013, 0 de julho). Travaux,
Teaching Method
The materials on Special Constr. Systems are explained using multiple illustrations with various details of practical implementation cases.
The presentation of Structural Systems concepts is supported by the presentation and discussion of examples
Software used in class
Ftool, AutoCAD, CYPE, ROBOT
