Universidad de Jaén

1. Introduction to the design and analysis of structures and industrial plants

1.1. Types of industrial buildings.

1.2. Determining factors for the design of an industrial building

1.3. Stages for the design of an industrial building

1.4. Dimensioning industrial building

1. Calculation of Steel Structures.

2.1. Calculation principles.

           2.2. Description of structural steel

           2.3. Ultimate Limit States.

           2.4. Serviceability Limit States.

1. Structural Unions.

3.1. Introduction to welded joints.

3.2. The weld bead and dimensions.

3.3. Standards requirements and calculation butt and angle of the cord.

3.4. Introduction to bolted joints.

3.5. Arrangement and connecting elements (screws and nuts).

3.6. Calculation of bolted joints: shear and double shear, crushing, traction and off-load.

1. Calculation of Reinforced Concrete Structures.

4.1. Fundamental principles and general calculation procedures.

4.2. Description and characteristics of concrete and steel.

           4.3. parabola-rectangle method.

           4.4. Ultimate Limit States.

           4.5. Serviceability Limit States.

4.6. Dimensioning of beams and supports (knots and straps).

1. Calculation of foundations, floors and walls.

5.1. Predimensioning of isolated foundations.

5.2. Sizing foundations with centered load.

5.3. Foundations, sharecropping and corner.

5.4. Pilings.

5.5. Beams, gratings and foundation slabs.

5.6. Retaining walls.

1. Advanced calculation of structures.

6.1. Aerodynamic static loads.

6.2. Dynamic phenomena in structures.

6.3. Introduction to the Finite Element Method and application to the fluid-structure interaction.

Practices:

P1. Measures tensions by photoelasticity

P2. Calculation of structures with commercial software

P3. Scheduling problems of structures using finite elements.

A1 - Lectures in large group

M1 - Master Class: The classes will be developed by using board and slide projector, where the basic theoretical contents of the subject will be presented, related to the fundamentals of design of industrial plants, bases of calculation of structures of concrete and steel , unions, and advanced bases such as fluid-structure interaction and finite element calculation.

M2 - Exhibition of theory and general examples: The theoretical contents will be supplemented by the resolution of problems in class application of the concepts previously explained, detailing the analytical procedure, and stressing the need for rigor in the calculation.

 A2 - Classes in groups of practices

 M11 - Resolution of exercises: An important part of small group activities will be solving exercises and case studies applied calculation more complex than those presented in class theory. Here, the student must solve independently, under the supervision of the teacher, and after introduction of the requirements and tools available, the exercises. It is intended that students become familiar with the use of rules.

 M6 - Practical activities: To complement the classes in small group planned practical activities in the laboratory (using photoelasticity techniques) and computer class (calculation of structures and programming commercial finite element programs).

A3 - Academic tutorials / individual

M14 - Monitoring directed works: During the hours spent tutoring, volunteer work and exercises along classes are proposed as a complementary activity to be monitored previously indicated.
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Students with special educational needs should contact the Student Attention Service (Servicio de Atención y Ayudas al Estudiante) in order to receive the appropriate academic support

S1. Attendance and Participation. You will be assessed through observations associated with active student participation during the development of classes and exercise class delivery arising under the same teacher. This item valuation will help the teacher to monitor the progress of students in the development of basic and general skills, and cross above.

S2. Mastering the theoretical and operational knowledge of the matter. In the theoretical examination it will be necessary to score both theoretical content and operational matter, having a greater than zero in each of these parts qualifying. The weight of the theoretical contents in the examination is 30% compared to 70% of operational contents (problems). With the successful completion of problems and cases contained in the examination it is to verify that during the development of classes and self-employment, the student has fully develop the CG01, CE18 and CE19 competences. Specifically, the results associated with these specific skills, ie learning outcomes 14.1 and 14.2, will be the evaluation items in theoretical examination, by theoretical questions and problems.

S3. Papers, case studies or exercises. The valuation of this item is subject to delivery by students of design problems and calculation of structures and industrial plants, and exposure to practical work in class. By performing problems, cases and projects implemented, it is intended to work to acquire the skills CE17 CT2 and, in particular, it is expected that the evaluation component for verifying the level of achievement of learning outcomes 14.3 and 14.4.

Generally, to pass the course will need to overcome independently both the examination and the practical part.