| Educational guide School of Chemical Engineering |
english |
| Bachelor's Degree in Chemical Engineering (2010) |
 Subjects |
| RESISTANCE OF MATERIALS |
| Contents |
| IDENTIFYING DATA | 2023_24 |
| Subject | RESISTANCE OF MATERIALS | Code | 20204109 | |||||
| Study programme |
|
Cycle | 1st | |||||
| Descriptors | Credits | Type | Year | Period | ||||
| 3 | Compulsory | Third | 2Q |
|||||
| Competences | Learning outcomes | Contents |
| Planning | Methodologies | Personalized attention |
| Assessment | Sources of information | Recommendations |
| Topic | Sub-topic |
| SUBJECT 0. INTRODUCTION | Know the scope of application of the elasticity and resistance of materials. Static and elastic equilibrium. Definition of prismatic piece. Concept of tension and deformation. The elastic problem. Hypothesis of elasticity. |
| SUBJECT 1. STATICS | Strength concept. Concept of moment of a force. Balance concept. Binding conditions. Equilibrium of the solid in the plane. Balance of forces with the action of friction. |
| SUBJECT 2. TRACTION AND COMPRESSION | Definition. Tensile state of traction and compression. Deformations. Own weight. Hyperstatic systems. Initial and thermal stresses. |
| SUBJECT 3. PRESSURE VESSELS | Tensions generated by the pressure inside closed containers. Deformations. Constructive characteristics. Standards and International Certification Codes. |
| SUBJECT 4. PURE SHEAR STRESS AND TORSIONAL MOMENT | Pure shear. Elementary shear theory. Deformations. Calculation of riveted and screwed joints. Torsion in straight and circular bars. Distribution of tangential stresses. Diagrams. Calculation of power transmission axles. |
| SUBJECT 5 AND SUBJECT 6. GENERAL THEORY OF BENDING. ANALYSIS OF TENSIONS AND DEFORMATIONS COMBINED LOADS AND HYPERSTATIC BENDING | Definitions. Diagrams in flexion. Navier's law for the calculation of normal stresses in pure bending. Stresses in simple bending. Tangential stresses: Colignon's formula. Principal stresses in simple bending. Dimensioning of bars in simple bending. Definitions. Double integration method for calculating deformations. Mohr's theorem. Effect of shear stress. |
| SUBJECT 7. ELASTIC INSTABILITY. BUCKLING. | Definitions. Euler's method. Limitations X method. Other methods. Eccentric compression. |
| SUBJECT 8. STRUCTURES | Calculation and design of articulated reticular structures. |
| PRACTICE 1. TENSILE TESTING OF MATERIALS |
