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Presentation
Presentation
The Strength of Materials Course is the first contact of the students with phenomena that occur inside structural elements (stresses and deformations). Therefore, Course starts with fundamental knowledge on the mechanical behavior of materials. Next, the fundamental concepts of Structural Mechanics are reviewed, such as the effects that the various internal forces have on the stresses in the cross sections of structural elements. The fundamental concepts of the Theory of Elasticity are also presented, including transformations of stresses and strains, Mohr's circle in two dimensions, and generalized Hooke's Law. Yield criteria for ductile materials are introduced and the plastic analysis of bars subjected to bending is presented in some detail (pushover analysis). The bases of the instability of columns are also presented.
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Class from course
Class from course
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Degree | Semesters | ECTS
Degree | Semesters | ECTS
Bachelor | Semestral | 6
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Year | Nature | Language
Year | Nature | Language
2 | Mandatory | Português
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Code
Code
ULHT30-13546
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Prerequisites and corequisites
Prerequisites and corequisites
Not applicable
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Professional Internship
Professional Internship
Não
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Syllabus
Syllabus
Mechanical behavior of materials Traction and compression of bars Stress, strain and displacement statically indeterminate problems Problems involving temperature variations Prestressed bars Energy methods for calculating displacements. Virtual Work Principle (VWP) Bending in straight beams Pure bending Oblique bending Bending with axial force Calculation of displacements using VWP Prestressed beams Non-linear bending Pushover analysis Shear forces in straight beams Shear flux. Shear stresses Deformation. Reduced area Torsion in straight beams Bar with circular section bar. Stresses and deformations Theory of Elasticity Stress tensor. Cauchy's formula Maximum stresses Mohr's Circles Strain tensor Generalized Hooke's Law Yield criteria for ductile materials Instability of Ccolumns Critical load Critical stress
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Objectives
Objectives
Provide students with the basic knowledge of Solid Mechanics, namely introduce the concepts of continuum, stress, strain and constitutive relations, geometric and physical linearity and superposition principle. Additionally, it is intended to provide students with fundamental concepts of Strength of Materials and the theory of linear parts (axial force and bending moment), so that they can analyze and calculate the state of stress and deformation in linear structural elements subjected, alone or simultaneously, to axial load, bending moment, shear force and torsion. Finally, it intends to introduce the plastic analysis of structures and the concept of instability.
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Teaching methodologies and assessment
Teaching methodologies and assessment
Applied study: beam displacement calculation competition, with verification in the laboratory Resistance Club: one extra hour per week
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References
References
Beer, Ferdinand P., Jr., E. Russel Johnston., DeWolf, John T., Mazurek, David F., Mecânica dos Materiais. McGraw Hill, 8ª Edição, 2020. Cortez Teixeira PI, Moldovan ID, Barata Marques M – Elasticidade: Conceitos e Applicções. IST Press, Lisbon, 2022. ISBN: 978-898-8481-90-0. Timoshenko, S., Strength of Materials, Part I, Elementay Theory and Problems. D. Van Nostrand Company, Inc, 2nd Edition, 1940. Documentos de apoio disponibilizados ao longo do semestre.
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Office Hours
Office Hours
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Mobility
Mobility
Yes
