Guia docente 2024_25 Escola de Enxeñaría Industrial

Grado en Ingeniería en Tecnologías Industriales

Contents

Topic	Sub-topic
1. Introduction of concepts of mechanics needed for the study of mechanics of materials	1.1 Vectors. Scalar product and cross product of two vectors 1.2 Types of connections 1.3 Moment of a force 1.4 Static equilibrium 1.5 Elements subjected to 2 or more forces 1.6 Distributed forces and centroids of area 1.7 Reduction of a system of forces to one force-couple 1.8 Frames and machines. Trusses. 1.9 Moments and products of inertia
2. Basic principles of elasticity and mechanics of materials	2.0 Stress and strain. Linear elastic materials 2.1. Normal stress in an axially loaded prismatic bar. 2.2. Equilibrium of a deformable body. 2.3. Stress-Strain diagram of ductile materials. Hooke's Law. 2.4. Stress resultants. Diagrams.
3. Axial Loads	3.1. Normal forces. 3.2. Elastic deformation of an axially loaded member. 3.3. Statically governed problems. 3.4. Statically indeterminate problems. 3.5. Thermal stress and assembly misfits. 3.6 Fundaments of compressive buckling
4. Bending and shear	4.1 Beams: definition and types. Loads on beams. 4.2 Internal shear forces and bending moments. 4.3 External load, shear force and bending moment relationships. 4.4 Shear and moment diagrams 4.5 Pure bending and non-uniform bending. Hypothesis and limitations. 4.6. Normal stresses in unsymmetric bending. 4.7 Symmetric bending. The flexure formula (Navier's Law). 4.8 Section modulus of a beam. Ideal beam cross-section. 4.9 Deflection of beams and shafts. Slope and deflection. 4.10 Hyperstatic bending.
5. Other forces	4.1. Fundamentals of shear 4.4. Fundamentals of torsion