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Design Industrial
Fundamentos de Engenharia

Fundamentos de Engenharia

Código	16456
Ano	3
Semestre	S1
Créditos ECTS	6
Carga Horária	TP(60H)
Área Científica	Ciência e Tecnologia
Learning outcomes	- Acquisition of fundamental knowledge, in the area of engineering, necessary for the conceptualization of technological products; - Acquisition of technical skills that allow dialogue and exchange of ideas with Engineering colleagues within multidisciplinary product development teams; - Broadening the scope of technical knowledge acquired by students in previous curricular units, and its application in coordination with the Industrial Design 5 curricular unit, in a multidisciplinary work environment of product development.
Syllabus	1 - Heat transfer: fundamental concepts; Thermal properties; Empirical laws associated with the heat conduction and heat convection mechanisms; Thermal radiation laws; Thermal radiation exchange between surfaces. 2 - Stresses due to normal load, shear, pure bending and torsion; Internal loads: internal load diagrams; Critical section analysis: analysis of stresses and strains; Stresses under combined loads: superposition principle; Analysis of the maximum stress in a structure; Safety factor; Yielding criteria; Simulation in SolidWorks; Industrial Design applications. 3 - Basic concepts of luminotechnics: nature of light; Light and color; Photometry: quantities and concepts; Luminous flux; Illumination intensity; Luminance; Lamp and accessory characteristics: energy efficiency; Color temperature; Relative spectral distribution and photometric diagram of lamps; Color Rendering Index; Luminaires; Lighting design.
Teaching Methodologies and Assessment Criteria	A methodology using the exposition of theoretical contents is adopted, implemented through cases applied to Industrial Design, as well as the articulated monitoring of product development within the curricular unit Industrial Design 5 using a problem-solving methodology, with research of relevant information the implementation of the current project. Throughout TP classes, the course content is discussed with the support of lecture notes and practical exercises. The course evaluation consists of one assessment test (TP1b) and two report assignments (TP1a and TP1c). There is attendance control for each module.
Main Bibliography	Bird, J. and Ross, C., Mechanical Engineering Principles, Routledge Publishing, ISBN 978-1138781573. Seward, D., Understanding Structures: Analysis, Materials, Design, Palgrave Publishing, ISBN 978-1137376565. Beer, Johnston and DeWolf, Mecânica dos Materiais, 3ª Ed., McGraw-Hill, 2003. Matias, J.V.C., Tecnologia da Electricidade, Didáctica Editora, 1987. Manual Luminotécnico Prático, OSRAM. Manual de Iluminação Pública. -Revisão, EDP Distribuição, 2016. Eficiência Energética na Iluminação Pública, Documento de Referência. Parte I – Conceitos de Luminotécnia, 2018. Kofod, C., Guias Técnicos de iluminação LED, Projecto PremiumLightPro, 2017. Cengel, Y.A., Heat Transfer: A practical Approach, McGraw-Hill, 2007. Theodore L. Bergman, Frank P. Incropera, Adrienne S. Lavine, David P. DeWitt, Introduction to Heat Transfer, John Wiley & Sons, 2011. Cengel, Y.A. and Ghajar A. J., Heat and Mass Transfer: Fundamentals and Applications, McGraw-Hill, 2011.
Language	Portuguese. Tutorial support is available in English.

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Design Industrial

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