Teaching Methodologies
In class:
EP=Presential Learning
EP1. Theoretical teaching (T)
EP1.1 Exposure of programmatic contents
EP1.2 Application examples
EP2. Theoretical-practical teaching (TP)
EP2.1 Solving practical problems
EP2.2 Critical analysis of results
EP3. Practical-laboratorial Teaching (PL)
EP3.1 Works involving manufacturing technologies
Autonomous:
AA = Autonomous learning
AA1. Reading of the notes provided, and of excerpts from the recommended bibliography
AA2. Resolution of the proposed exercises in class
Specific Resources:
Practical and Laboratorial Teaching – Mechanical Technology Laboratory (Presential Teaching)
Learning Results
C1 – To know the materials classes and materials’ life cycle.
C2 – To know and understand the working principles of the main processes available for the manufacturing of components and the main advantages and limitations of each one.
C3 – To gain critical thinking and ability to analyse problems in order to identify, among these processes, the most suitable for the manufacture of a particular component that has specific requirements for use with a biomechanical purpose.
C4 – To perform fundamental operations of some of the manufacturing technologies, in a laboratory environment.
CT1 – To perform teamwork in a laboratory environment.
CT2 – To acquire abstraction and data interpretation skills, to achieve alternative solutions to a problem.
Program
1. Materials and their Properties
1.1 Materials Classes
1.2 Metallic Materials
1.3 Polymeric Materials and Composites
2. Introduction to Manufacturing Processes
2.1 Processing of Metallic Materials
2.1.1 Forging
2.1.2 Rolling
2.1.3 Extrusion
2.1.4 Sheet Metal Forming
2.1.5 Bending
2.1.6 Casting
3. Processing of Polymeric Materials
3.1 Injection Molding
3.2 Extrusion
3.3 Blow Molding
3.4 Rotational Molding
3.5 Compression Molding
3.6 Thermoforming
4. Dimensional Metrology
5. Cutting Processes
5.1 Chip Metal Cutting, Computer Numeric Control
5.2 Electric Discharge Machining
6. Additive Manufacturing Processes
6.1 Introduction to Additive Manufacturing Technologies
6.2 Fused Filament Fabrication (FFF)
7. Electric arc welding
7.1 Manual Metal arc
7.2 MIG/MAG
7.3 TIG and Plasma.
Curricular Unit Teachers
Miguel José dos Reis SilvaGrading Methods
- - Written Tests (2*50%) or Final Exam (100%) - 100.0%
Internship(s)
NAO
Bibliography
Smith, W. (1990). Principles of materials science and engineering. McGraw Hill. [disponível na biblioteca do ISEC em 4-14-51]
Rodrigues, J. (2010). Tecnologia mecânica: Tecnologia da deformação plástica, Vol. I. Escolar Editora. [disponível na biblioteca do ISEC em 4-6- 160 e 4-6-161]
Chiaverini, V. (1986). Tecnologia mecânica, Vol. I e Vol. II. McGraw-Hill. [disponível na biblioteca do ISEC em 4-6-44 e 4-6-45]
Cunha L. (1989). Desenho Técnico. Fundação Calouste Gulbenkian [disponível na biblioteca do ISEC em 4-7-42]
Davin, J. P. (2008). Princípios da maquinagem (2ª ed.). Publindústria, Edições Técnicas. [disponível na biblioteca do ISEC em 4-6-153]
Santos, J., & Quintino, L. (1998). Processos de soldadura (2ª ed.). Instituto de Soldadura e Qualidade. [disponível na biblioteca do ISEC em 4-2-55 e 4-2-56]
Silva, F. (2017). Tecnologia da soldadura – Uma abordagem técnico-didática (2a ed.). Publindustria.
Completo, A., et al. (2009). Tecnologias de fabrico. Publindústria.