Course: Airports Areas: Geotechnics and Transportation Code: ENEX00355 Workload: 2 ( 0 ) Theory ( 2 ) Practice Study of the components, systems and facilities of airport infrastructure. Analysis of the implications of aspects relating to air traffic control and urban relationship in the planning and design of airports. Air transportation and airports Aircraft - characteristics and influence thereof on airports Demand Location studies General plan of the airport Geometry of the aviation side Signage and visual aids Passenger terminal Cargo terminal and ground side Pavement and drainage Services General topics on management ASHFORD, N.; MUMAYIZ, S.; WRIGHT, P. Airport Engineering: planning, design and development of 21 st century airports. Hoboken: Wiley, 2011. CAVES, R.; KAZDA, A. Airport design and operation. 2. ed. London: Elsevier, 2007. HORONJEFF, R.; YOUNG, S. Planning and design of airports. 5. ed. New York: McGraw-Hill, 2010. Complementary Bibliography: AIRPORTS COUNCIL INTERNATIONAL ACI. Airside Safety Handbook. Geneve, 2010. AIRPORTS COUNCIL INTERNATIONAL ACI. Apron Markings and Signs Handbook. Geneve, 2009. ASHFORD, N., COUTU, P. & BEASLEY, J. Airport Operations 3/E. McGraw-Hill, 2012. INTERNATIONAL AIR TRANSPORT ASSOCIATION (Canadá). Airport development reference manual. 9. ed. Montreal, 2004. INTERNATIONAL CIVIL AVIATION ORGANIZATION. Aerodromes: annex 14. Montreal, 1999.
Course: Prestressed Concrete Structures Area: Structures and Foundations Code: ENEX00901 Workload: 4 ( 2 ) Theory ( 2 ) Practice Study of techniques for designing, scaling and verifying elements of prestressed concrete structures in addition to reinforced concrete structures techniques. The following is a brief list of the most relevant items of the course syllabus: - General concepts, definitions and applications of prestressed concrete; - Considerations on the Standards; - Types of prestressing regarding the construction process and the Serviceability Limit States; - Designing/sizing structures; - Verifying structures; - Geometric design - Prestressing losses: immediate and progressive - Criteria of quality control / acceptance for prestressing. - General concepts, definition and applications of prestressed concrete; - Considerations on standards NBR 6118/2007, NBR 6118/2014 and NBR 8681/2003; - Materials, steel and concrete; - Definition of prestressed concrete; - Discussion of project script encompassing everything from bidding on the project, choice of solution (cost-benefit analysis) up to completion of the design to carry out the job; - Calculating geometric characteristics; - Calculating normal stresses; - Use of high-strength steel in prestressed concrete pieces; - Discussion of the advantages and disadvantages of prestressed concrete technical, aesthetic, functional, constructive, economic and quality control aspects; - Types of prestressing regarding the construction process - Prestressing systems in Brazil; - The limit state method; -Types of prestressing regarding serviceability limit state; - Design and verification of serviceability limit state; - Design and verification in ultimate limit state; - Geometric design - Prestressing losses (immediate and progressive): by friction, crimping of the anchors, immediate strain of the concrete, shrinkage, creep, and relaxation. - Criteria of quality control / acceptance for prestressing.
ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR 8681: ações e segurança nas estruturas Procedimento. Rio de Janeiro: 2003. ASSOCIAÇÃO BRASILEIRA DE NORMAS TÉCNICAS. NBR6118: projeto de estruturas de concreto Procedimento. Rio de Janeiro: 2014. CHOLFE, Luiz e BONILHA, Luciana A. S. Concreto Protendido Teoria e Prática. São Paulo: Editora Pini, 2013. Bibliografia Complementar: BUCHAIN, Roberto. Concreto protendido: tração axial, simples e força cortante. Londrina: Editora Eduel, 2007. CARVALHO, Roberto. Estrutura em concreto protendido: cálculo e detalhamento. São Paulo: Editora Pini, 2012. CAUDURO, Eugenio L. Manual para a boa execução de estruturas protendidas usando cordoalhas de aço engraxadas e plastificadas. São Paulo: Editora Belgo Bekaert Arames, 2002. LEONHARDT, Fritz. Construções de Concreto. v.5. Rio de Janeiro: Editora Interciência Ltda., 1983. VASCONCELOS, Augusto C. Manual Prático para a correta utilização dos aços no concreto protendido. Belo Horizonte: Livros Técnicos e Científicos, 1980.
Course: Design of Concrete Structures III Area: Structures and Foundations Code: ENEX00944 Workload: 4 ( 2 ) Theory ( 2 ) Practice Study of structural systems and global stability of buildings. Analysis of wall beams, consoles and Gerber beams by the Strut and Tie Method. Design and detailing of retaining walls and containment walls. Introduction to the design method proposed by Blévot and Frémy for foundation footings, pile caps and caissons. Design and detailing of rebars in foundation elements. 1. Global stability of buildings. 2. Foundation footings. 3. Pile caps and caissons. 4. Short consoles and Gerber beams. 5. Retaining walls. Containment walls. 6. Wall-beams. CARVALHO, R.C.; FIGUEIREDO FILHO, J. R. Cálculo e detalhamento de estruturas usuais de concreto armado. 3 ed. São Carlos: EdUFSCar, 2007. CARVALHO, R.C.; PINHEIRO, L. M. Cálculo e detalhamento de estruturas usuais de concreto armado. São Paulo: Pini, 2009. v. 2. CUNHA, A. J. P.; SOUZA, V. C. M. Lajes em concreto armado e protendido. Rio de Janeiro: EDUFF, 1998. Complementary Bibliography: FUSCO, P. B. Estruturas de concreto: solicitações normais. Rio de Janeiro: LTC, 1985. FUSCO, P. B. Técnica de armar estruturas de concreto. São Paulo: Pini, 1995. LEONHARDT, F.; MOENNING, E. Construções de concreto. Rio de Janeiro: Interciência, 1977. SANCHEZ, E. Nova normalização brasileira para o concreto estrutural. Rio de Janeiro: Interciência, 1999. SANTOS, L.M. Cálculo de concreto armado. São Paulo: LMS, 1984.
Course: Civil Engineering Project Management Area: Project Management Code: ENEX00383 Workload: 2 ( 0 ) Theory ( 2 ) Practice Study of project management techniques in the construction industry and project life cycle (design, planning, execution, control and completion). Presentation of the sections that guide project management, according to the PMBoK PROJECT MANAGEMENT INSTITUTE: Scope, Time, Costs, HR, Communications, Quality, Risk, Stakeholders,Procurement and Integration. Recognition of the areas of knowledge involved in project management in the construction industry and basic concepts for cross-disciplinary analyses. Application of management methods through software available on the market and practical case study applied to the design and production buildings, through the PERT - CPM method, with evaluation of physical resources (services) and optimization of times and costs for the preparation of the construction schedule and financial schedule. Definition of Projects Project life cycle and defining stakeholders in projects Presentation of necessary skills and areas of knowledge of a project manager in the construction industry. Area of knowledge Scope Area of knowledge Time. Area of knowledge Costs. Area of knowledge Risks. Area of knowledge Communication. Area of knowledge Human Resources. Area of knowledge Stakeholders Management. Area of knowledge Quality. Area of knowledge Procurement. Area of knowledge Integration and mechanisms for developing the Project Plan. Present the history (Gantt chart), elements and examples of layout of the physical financial timetables, based on PERT/CPM network data. Notions of preparation of a work timetables and identification of project duration, identifying the critical path. Present mechanisms to detect possible delays in the project; Mechanisms for controlling deadlines; Mechanisms for controlling budgets. Fundamentals of preparing a project plan. Mechanisms for monitoring the execution and control of projects. Exercises for practical course evaluation using market software. Exercises for practical course evaluation. Developing a design project in the construction industry.
CARVALHO, M. M. de. Fundamentos em gestão de projetos. 3. ed. São Paulo: Atlas, 2011. KEZNER, H. Gestão de projetos: as melhores práticas. 2. ed. São Paulo: Bookman, 2006. MELLO, M. Gerenciamento de projetos para a construção civil. 2. ed. São Paulo: Brasport Ed., 2010. Complementary Bibliography: ÁVILA, A. V. Gerenciamento na construção civil. Rio de Janeiro: Argos, 2006. GIAMMUSSO, S. E. Orçamento e custos na construção civil. São Paulo: Pini, 2006. MATTOS, A. D. Planejamento e controle de obras. 2. ed. São Paulo: Pini, 2010. KEELING, R. Gestão de projetos: uma abordagem global. São Paulo: Saraiva, 2002. PROJECT MANAGEMENT INSTITUTE. PMBoK. 5. ed. Newtown Square, PA: 2012.
Area: Structures and Foundations Course: Brigdes Workload: 4 ( 4 ) Theory ( 0 ) Practice Code: ENEX01378 General study on the design of structural systems and characteristics of construction systems used in the main types of Bridges/Overpasses, such as bridges with beams cast onsite, precast trays, cable-stayed bridges and arched bridges. Initial considerations: general concepts; classification; loads; application of International Standards. Study the stability of the structural elements of Bridges/Overpasses designed in straight beams: trays with two main beams and grid - slabs; Infrastructure and Meso-structures subjected to horizontal forces. Analysis of special structures. Construction details: support equipment and structural movement joints. 1. Introduction.General considerations. Fundamental Properties. Classification. Pass Templates. Design elements. Professionals involved. Impact Quotient. Accidental loads (Standards). Bridges with two Main beams. Bending moment and shear strength envelopes. 2. Grid effect.leonhardt method. Main beams. Crossbeams. Concurrent reactions. 3. Bridge slabs.calculation of forces and design. Rusch method. Criteria based on standards. 4. Structural devices.neoprene Support devices. Mobile Support devices. Stationary support devices. Design and detailing. 5. Horizontal forces.obtaining Longitudinal forces. Obtaining transversal forces. 6. Distribution of longitudinal forces. Continuous and isostatic trays. Obtaining Longitudinal forces. 7. Bridge Management. Analysis criteria. MASON, Jayme. Pontes em Concreto Armado e Protendido. Rio de Janeiro: LTC, 1997. PFEIL, Walter. Concreto Protendido. Rio de Janeiro: LTC, 1991. VASCONCELOS, Augusto Carlos. Pontes Brasileiras: Viadutos e Passarelas Notáveis. São Paulo. 2ª. Edição. Editora Pini, 2012.
Complementary Bibliography: ALONSO, Urbano R. Dimensionamento de Fundações Profundas. São Paulo: Editora Edgard Blüecher, 1994. FREITAS, Moacyr. Infra-Estrutura de Pontes de Vigas. São Paulo: Editora Edgard Blüecher, 2001. LEONHARDT, F. Princípios Básicos de Construção de Pontes de Concreto. Volume 6. Rio de Janeiro: Editora Interciência, 1979. MARCHETTI, Osvaldemar. Pontes de Concreto Armado. São Paulo: Editora Edgard Blüecher, 2008. MENDES, P. T. C.. Contribuições para um modelo de gestão de pontes de concreto aplicado à rede de rodovias brasileiras. São Paulo, 235 p. Tese (Doutorado) - Escola Politécnica da Universidade de São Paulo, 2009.