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ISLA Santarém 12982

Manufacturing Processes and Materials Technology

Engineering Work Safety
  • ApresentaçãoPresentation
    The course introduces manufacturing processes and materials technologies (metals, polymers, ceramics, composites), relating material selection, performance, and safety, and enabling the Occupational Safety Engineer to analyze processes, identify hazards, assess risks, and propose preventive measures in an industrial context.
  • ProgramaProgramme
    1. Introduction to manufacturing processes and the most important components of management in productive environments (quality management, environmental management, safety management and occupational health, energy management, maintenance management), Statistical Process Control (SPC). 2. Transformation processes of metallic materials 2.1. Mechanical processing of metallic materials (cutting, bending, forming, machining); 1 Thermal processes (autogenous welding and brazing, thermal cutting); 2 Transformation processes of polymeric materials, ceramics and glass. 3 Production processes of chemicals. 4 Production processes in manufacturing of wood. 5 Lines and assembly processes.
  • ObjectivosObjectives
    O1. Provide students with basic training in the area of Manufacturing Processes and Materials Technology, enabling them to integrate theoretical knowledge directly or indirectly related to the subjects taught.  O2. To familiarize students with the equipment, materials, and processes used in manufacturing and the main risks associated with them.  O3. To foster students' ability to select and interpret relevant information through coursework and their communication and argumentation skills through the presentation and discussion of said coursework.
  • BibliografiaBibliography
    Ashby, M. F. (2017). Materials selection in mechanical design (5th ed.). Oxford, United Kingdom: Butterworth Heinemann. Callister, W. D., Jr., & Rethwisch, D. G. (2021). Ciência e engenharia de materiais: Uma introdução (últ. ed. port.). Rio de Janeiro, Brasil: LTC. Davim, J. P. (2008). Princípios da maquinagem (2.ª ed.). Porto, Portugal: Publindústria. ISBN 978 972 8953 24 9. Groover, M. P. (2016). Fundamentals of modern manufacturing: Materials, processes, and systems (6th ed.). Hoboken, NJ: Wiley. Real, L. E. P. (2007). Física e química dos materiais: Uma introdução à ciência dos materiais. Lisboa, Portugal: LNEC. ISBN 978 972 49 2106 8.  
  • MetodologiaMethodology
    In-person: 1. Hybrid and interactive classes, with computer-aided design (CAD) software and 3D modeling platforms that allow you to visualize projects realistically.  2. Case studies and practical projects encourage the identification of risks in technical plans and facilities. 3. Augmented reality and digital simulations facilitate the analysis of complex scenarios, promoting preventive decisions.  4. Debates, peer review, and digital portfolios stimulate critical thinking, communication, and teamwork.  Independent: 5. Teacher-guided research/supplementary work aimed at consolidating the topics under study and providing input for the practical work developed by students.
  • LínguaLanguage
    Português
  • TipoType
    Semestral
  • ECTS
    7
  • NaturezaNature
    Mandatory
  • EstágioInternship
    Não
  • AvaliaçãoEvaluation

    Avaliação contínua (a realizar no decorrer do semestre) que consiste:
    - Exercícios em aula (portfólio) (70%)
    - Teste individual (30%).
    Avaliação final através de exame (100%)