Mechanics of Materials I

Mechanical Engineering
6 ECTS; 2º Ano, 2º Semestre, 30,0 T + 15,0 PL + 30,0 TP + 5,0 OT

- Isabel Maria Duarte Pinheiro Nogueira

Not applicable

Provide students with knowledge of mechanical loading systems, such as beams and shafts applied for torsion, bending and cross loads. Acquisition of techniques for calculating the strength of the materials and their deformation. Provide knowledge for the design of beams and shafts in effort.

Stress and strain
Pure bending
Transverse loads
Beam and shaft project
Calculus of beam deflection - integration method

Evaluation Methodology
Assessment of knowledge through written test:
- Two frequencies one with the first part of the matter and the other with the second part, I note the algebraic mean of the frequency notes, or
- Exam.
Minimum mark of achievement 9,5 values.

- Beer, F. e Johnston, E. (2006). Resistência dos Materiais. S. Paulo: McGraw-Hill
- Beer, F. e Johnston, E. e Mazurek, D. e Eisenberg, E. (2011). Mecânica Vectorial para engenheiros - Estática. S. Paulo: McGraw-Hill
- Moura Branco, P. (2011). Mecânica dos Materiais. Lisboa: Fundação Calouste Gulbenkian
- Beer, F. e Johnston, R. e DeWolf, J. e F. Mazurek, D. (2011). Mecânica dos Materiais. S. Paulo: AMGH Editora Ltda (Mc Graw-Hill)
- Gomes, P. (2015). Resistência de Materiais. Portugal: Edição de autor

Method of interaction
Lectures and tutorials

Software used in class
Not applicable.