Teaching GuideTerm Higher Technical University College of Architecture |
Grao en Arquitectura |
Subjects |
Estruturas 1 |
Contents |
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Identifying Data | 2016/17 | |||||||||||||
Subject | Estruturas 1 | Code | 630G01019 | |||||||||||
Study programme |
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Descriptors | Cycle | Period | Year | Type | Credits | |||||||||
Graduate | 2nd four-month period |
Second | Obligatoria | 6 | ||||||||||
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Topic | Sub-topic |
01 STRESS STATE | 1 Stress concept: Normal and tangential 2 Intrinsic components of the stress components 3 Stress in function of the orientation of the section 4 Graphical representations of the stress intrinsic components. Mohr circle. 5 Cauchy Theorem 6 Plane stress state 7 Main directions |
02 DEFORMATIONS AND DISPLACEMENTS | 1 Specific deformations 2 Angular deformations or angular rotations 3 Plane deformational state. Deformation tensor. 4 Intrinsic components graphic. Mohr circle. 5 Extensometry |
03 MECHANIC RESPONSE OF THE MATERIALS | 1 Elastic constants of the materials 2 Hooke´s law 3 Lame equations |
04 MATERIALS RESISTANCE | 1 Solid elastic concept. Mechanic prism. 2 Efforts. Section method. Equivalence equations 3 Relatively resilient and Bernoulli hypothesis. 4 Saint-Venant Principle and combining or overlay effects. 5 Stress-deformation diagrams. Mechanic properties 6 Fail Criteria 7 Introduction to Structural calculation. Limited States. 8 Probability methods and partial safety factors |
05 AXIAL FORCE | 1 Stress conditions and uniaxial deformational conditions 2 Strength of bars 3 Resolution of monoaxial hyperstatic problems 4 Introduction of the buckling problems. Euler critical load. 5 Introduction to axial plasticity. |
06 SHEAR FORCE | 1 Elemental theory 2 Connecting elements 3 Smugglers calculation |
07 PURE BENDING | 1 Hypothesis or assumptions and general solutions 2 Simetric pure bending. Navier law. Resistant module 3 Sections calculation 4 Differential equations or the elastic line. 5 Plasticity introduction in pure bending |
08 SIMPLE BENDING | 1 Colignon formulation 2 Principal stress. Isostatic 3 Beams calculations |
09 DEVIATION BENDING |
1 Normal and shear stresses 2 Bend allowance 3 Analysis of deformations |
10 BENDING (COMPOUND FLEXURE) | 1 Normal and shear stresses. Neutral axis 2 Pressure center and neutral axis 3 Central core or central nucleus. Concept. Determination. |
11 TORSION | 1 Simple torsion and pure torsion. 2 Torsion in cylindrical bars. Coulomb theory. 3 Torsion in no circular cross-section prisms 4 Design consideration in elements with torsion |
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