Teaching GuideTerm Higher Technical University College of Architecture |
Grao en Estudos de Arquitectura |
Subjects |
Structures 1 |
Contents |
|
|
|
Identifying Data | 2019/20 | |||||||||||||
Subject | Structures 1 | Code | 630G02019 | |||||||||||
Study programme |
|
|||||||||||||
Descriptors | Cycle | Period | Year | Type | Credits | |||||||||
Graduate | 2nd four-month period |
Second | Obligatory | 6 | ||||||||||
|
Topic | Sub-topic |
01 STRUCTURE. REQUIREMENTS AND BEHAVIOR | 1 Concept of Structure 2 Structure and Structural System 3 Balance, resistance and Stability 4 Concept of rigidity 5 Behavior Requirements 6 Process. From Design to Analysis |
02 STRUCTURAL ELEMENTS | 1 Linear Elements 2 Surface Elements 3 Structural Systems 4 Idealization. Model |
03 BALANCE ACTION AND COACTION | 1 System and Formal Permanence 2 Exterior-Interior Action. Balance 3 The Connection. Rigidity of the Union 4 Foreign Coactions. Reactions and Displacement |
04 STRESS AND STRAIN | 1 Tension concept: Normal and tangential 2 Components of the voltage vector 3 Tensions depending on the orientation of the section. 4 Flat tensional state. Tension tensor 5 Specific and angular deformations 6 Flat deformation state. Deformation tensioner |
05 RELATION STRESS - STRAIN | 1 Elastic constants of the materials 2 Hooke´s law 3 Lame equations |
06 MATERIALS RESISTANCE | 1 Concept of elastic solid. Mechanical prism. 2 Bernoulli hypothesis and Saint-Venant principle. 3 Diagrams tension - deformation. |
07 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. |
08 SHEAR FORCE | 1 Elemental theory 2 Connecting elements 3 Smugglers calculation |
09 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. |
10 SIMPLE BENDING | 1 Colignon formulation 2 Principal stress. Isostatic 3 Beams calculations |
11 DEVIED BENDING |
1 Normal and shear stresses 2 Bend allowance 3 Analysis of deformations |
12 BENDING (COMPOUND FLEXURE) | 1 Normal and shear stresses. Neutral axis 2 Pressure center and neutral axis 3 Central core or central nucleus. Concept. Determination. |
13 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 |
|