| Código |
15352
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| Ano |
2
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| Semestre |
S2
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| Créditos ECTS |
6
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| Carga Horária |
TP(60H)
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| Área Científica |
Engenharia e Gestão Industrial
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Learning outcomes |
The main objective of this course is the study of static and solid mechanics. In particular, different methodologies are used to learn how to determine the equilibrium stresses in structural components due to static stresses and to understand the deformation mechanisms of these components when subjected to tensile, bending, torsional and shear stresses acting individually or jointly, in order to acquire the ability to carry out its dimensioning, and also to analyze and solve hyper-static problems.
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Syllabus |
The planned syllabus covers the following topics:
- Statics of rigid bodies: Equivalent force systems
- Equilibrium of rigid bodies
- Structural analysis
- Stresses in beams
- Distributed forces: Moments of inertia
- Concepts of strain and stress
- Stress and strain due to normal load
- Stress and strain due to torsion
- Stress and strain due to bending and combined forces
- Maximum stress and yield criteria
- Transformation of coordinates and Mohr's circle
- Beams deflection
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Teaching Methodologies and Assessment Criteria |
The adopted teaching method combines theoretical exposition, in a 1st phase, with the resolution of practical cases, in a 2nd phase, covering the framework of the themes, concepts and theory, simplifying hypotheses and techniques inherent to each of the subjects to be teach. In order to accentuate the practical implications of the exposed subjects, practical exercises will be carried out in all chapters.
Attendance to classes aims to facilitate the apprehension and understanding of concepts, techniques and methods of analysis, and the interpretation of methods associated with the main approaches to statics and mechanics of solids.
The support elements for teaching the classes and solving the exercises by the students will be made available in the area of the curricular unit on the Moodle platform.
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Main Bibliography |
• Mecânica Vectorial para Engenheiros, Ferdinand P. Beer, E. Russell Johnston Jr. E Elliot R Eisenberg, McGraw-Hill, 2006.
• Resistência dos Materias, Ferdinand P. Beer, E. Russell Johnston Jr. E John T. deWolf, McGraw-Hill, 2006.
• Projeto de Engenharia Mecânica – Joseph E. Shigley, Charles R. Mischke, Richard G. Budynas, Bookman, 7ª Edição.
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| Language |
Portuguese. Tutorial support is available in English.
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