Mechanical Behavior of Materials
1
2021-2022
02010746
Mechanical Engineering Sciences
Portuguese
Face-to-face
SEMESTRIAL
6.0
Compulsory
2nd Cycle Studies - Mestrado
Recommended Prerequisites
Materials Science, Strength of Materials, Introduction to Mechanical Design .
Teaching Methods
Theoretical classes present and develop topics that correspond to the syllabus of the course. Theoretical-practical classes develop applications of the concepts taught in theoretical classes to concrete problems, seeking that the student has an active participation suggesting strategies for solving the proposed problems. Students also participate in a limited number of mechanical testing laboratory classes on which to report.
Learning Outcomes
The aim is to provide the students with scientific and technical knowledge on the mechanical behavior of materials, namely: brittle and ductile fracture, fatigue and the interaction of materials with the environment, particularly creep and stress corrosion. Fracture and fatigue in composite materials will also be addressed. Students should acquire the skills to understand the phenomena described and to act independently in quality control activities, design and material selection, critical analysis of defective parts and maintenance
Work Placement(s)
NoSyllabus
Fracture of materials: Stress intensity factor; plasticization at crack tip; Fracture toughness; Elastoplastic parameters: CTOD and Integral J; Experimental determination of K1c, CTOD and J integral; Interlaminar fracture of composite materials; Failure assessment diagram and crack driving force.
Fatigue of materials: Fatigue damage assessment using local stress-strain approach; Crack propagation curves; Propagation parameters and thresholds; Laws of fatigue crack propagation; Effect of overloads; Stress corrosion and da/dt - K curves; Fatigue with corrosion; Crack initiation from notches; Fatigue in composite materials: damage characterization and main parameters.
Creep: Creep tests; Creep for long lives; Stress relaxation; Stresses and strains for pure bending of a rectangular section bar.
Wear: Topography of surfaces; Wear by: abrasion, adhesion and erosion.
Head Lecturer(s)
Paulo Nobre Balbis dos Reis
Assessment Methods
Assessment
Laboratory work or Field work: 10.0%
Exam: 90.0%
Bibliography
Broeck, D., Elementary Engineering Fracture Mechanics, Ed. Noordhoff, Holanda, 1974.
Hertzberg, R.W., Deformatio and of Fracture Mechanics of Engineering Materials, Ed. John Wiley Sons, London, 1979.
Rolfe and Barsom, Fracture and Fatigue Control in Structures. Applications of Fracture Mechanics, Ed. Prentice-Hall, 1977.
Branco, C.M., Mecânica dos Materiais, Fundação Calouste Gulbenkian, 3ª Edição, 1998.