213.- TECHNICAL INDUSTRIAL ENGINEER, MECHANICS FIRST YEAR Technical Drawing I Physics I Fundamentals of Computer Science Mathematics I Chemistry Technical Drawing II Physics II Fundamentals of Materials Science Mathematics II Mechanics I SECOND YEAR Elasticity and Strength of Materials I Fundamentals of Electrical Technology Thermal Engineering I Drawing in Mechanical Engineering Mechanics II Mathematical Methods in Engineering I Elasticity and Strength of Materials II Fluid-Mechanical Engineering I Thermal Engineering II Mechanisms Statistical Methods in Engineering THIRD YEAR Business Administration and Production Organisation I Industrial Constructions Machines Design I Technical Office Mechanical Technology I Structure Theory I Health, Safety and Ergonomics Final Project OPTIONAL COURSES Business Administration and Production Organisation II Geometric Fundamentals of Technical Drawing Mathematics Laboratory Further Programming Environmental Chemistry Automobiles Electrochemistry and Fundamentals of Corrosion Fluid-Mechanical Engineering II Mathematical Methods in Engineering II Industrial Heat and Cold Complements Welding Engineering Materials for Designing in Mechanical Engineering Further Strength of Materials Further Thermal Engines V-1 Practices Structure Theory II Metallic and Concrete Structures Auxiliary Installations Machines Design II Experimental and Numeric Methods in Mechanical Engineering Regulation and Control of Machines Processes Engineering Mechanical Technology II Automatic Industrial Processes and Robotics Evolution of the Scientific and Technologic Knowledge Reliability and Quality Topography and Construction FIRST YEAR 16341- Technical Drawing I Semester 1; 60 Hours Fundamental normalisation in Technical Drawing. Direct dihedric system. Dimensioning. Axonometric perspective system Teaching Method: Lectures. Practical problems. Assessment: Written exam. Assessment of practical problems. 16342- Physics I Semester 1; 55 Hours Kinetic of particles. Dynamic of particles. Scalar and vector fields. Damped and Forced Oscillation. Study of the Principles of Thermodynamics. Teaching Method: Lectures. Practical Problems. Laboratory Practices Assessment: Written exam. Assessment of Laboratory Practices 16343- Fundamentals of Computer Science Semester 1; 60 Hours Introduction to Computer Science. Introduction to UNIX. Information Codes. Programs and Algorithms: Data and Expressions, Structures of Control, Subprograms, Arrays, Files. Programming in C. Computer Architecture. Peripherals. Teaching Method: Lectures. Practical problems . Laboratory practices. Assessment: Written exam. Assessment of laboratory practices 16344 - Mathematics I Semester 1; 75 Hours Introduction to lineal algebra. Linear transformations. Diagonalization. Quadratic forms. Introduction to infinitesimal calculus. Differentiation of functions in one variable. Integral of functions in one variable. Teaching Method: Lectures. Practical problems. Laboratory Practices. Assessment: Written exam. Assessment of laboratory practices. 16345- Chemistry Semester 1; 45 Hours Atomic structure. Chemical links. Molecular structure. Crystal structures. Imperfections in solids. Electrochemistry and corrosion. Metallurgy. Organic Chemistry fundamentals. Industrial use of Water. Teaching Method: Lectures. Practical problems. Laboratory practices Assessment: Written exam. Assessment of laboratory practices. 16346- Technical Drawing II Semester 2; 60 Hours Standard representation. CAD. Industrial Standards. Industrial Design Fundamentals Teaching Method: Lectures. Individual practical exercises. Computer aided design. Assessment: Written exam. Assessment of the practical exercises. V-2 16347- Physics II Semester 2; 60 Hours Electric field. Conductors and capacitors. Electro-kinetics. Magnetic field. Electromagnetic induction. Waves: general concepts. Mechanic Waves. Composition of wave movements. Teaching Method: Lectures. Practical Problems. Laboratory Practices Assessment: Written exam. Assessment of Laboratory Practices 16348- Fundamentals of Materials Science Semester 2; 75 Hours Fundaments of Materials Science. Materials used in Technology. Teaching Method: Lectures. Practical problems. Assessment: Written exam. 16349- Mathematics II Semester 2; 75 Hours Series. Calculus in more than one variable. Numeric Calculus. Teaching Method: Lectures. Practical problems. Laboratory Practices. Assessment: Written exam. Practical trial using computers. 16350- Mechanics I Semester 2; 60 Hours Evolution and principles of Mechanics. Statics. Geometrical Characteristics. Kinematics. Kinetics. Teaching Method: Lectures. Practical problems. Practical work Assessment: Written exam. Assessment of practical work SECOND YEAR 16355- Elasticity and Strength of Materials I Semester 1; 60 Hours Theory of Elasticity. Resistance of Materials. Teaching Method: Lectures. Practical problems. Practical work Assessment: Written exam. Assessment of practical work 16356- Fundamentals of Electrical Technology Semester 1; 60 Hours CC Machines. AC. Single-phase and tree-phase transformers. Magnetic fields and a synchronous machines. Synchronous machines. Teaching Method: Lectures. Practical problems. Laboratory Practices Assessment: Written exam. 16357- Thermal Engineering I Semester 1; 45 Hours Thermometry. State equations. First principle of Thermodynamics for closed and open systems. Second principle of thermodynamics. Entropy. Thermal machines. Teaching Method: Lectures. Practical problems. Assessment: Written exam. 16358- Drawing in Mechanical Engineering Semester 1; 45 Hours Drawing in Manufacturing and Definition. Junctions. Transmissions. Drawing in building. Teaching Method: Lectures. Practical problems. Practical work Assessment: Written exam. Assessment of practical work 16359- Mechanics II Semester 1; 55 Hours Invariant cinematic systems. Kinetic rigid solid. Vibrations. Analytical Mechanics. V-3 Teaching Method: Lectures. Practical problems. Assessment: Written exam. 16360- Mathematical Methods in Engineering I Semester 1; 60 Hours Further Integrals. Differential Equations. Teaching Method: Lectures. Practical Problems. Assessment: Written exam. 16361- Elasticity and Strength of Materials II Semester 2; 60 Hours Cutting. Torsion. Flexion. Instability. Teaching Method: Lectures. Practical problems. Practical work Assessment: Written exam. Assessment of practical work 16362- Fluid-Mechanical Engineering I Semester 2; 60 Hours Fundamentals of fluid mechanics. Hydrostatic. Kinematics. Dynamics. Bernoulli's theorem. Prototipes. Pipes. Channels. Aerodynamics. Instrumentation and Fluid measurements Teaching Method: Lectures. Practical problems. Laboratory Practices Assessment: Written exam. Laboratory practices assessment 16363- Thermal Engineering II Semester 2; 60 Hours Heat transfer. Combustion. Industrial cold. Renewable Energies. Teaching Method: Lectures. Practical problems. Assessment: Written exam. 16364- Mechanisms Semester 2; 75 Hours Study of mechanisms. Cinematic Analysis of Mechanisms. Levers. Gears. Introduction to analytical mechanics. Static of Machines. Dynamics of Machines. Teaching Method: Lectures. Practical problems. Assessment: Written exam. 16365- Statistical Methods in Engineering Semester 2; 60 Hours Data description, Uni-dimensional distributions. Muti-dimensional variables distributions. Probability and its properties. Random variables. Distribution models. Introduction to statistical inference. Punctual estimation. Interval estimation. Hypothesis test. Teaching Method: Lectures. Practical problems. Practical problems using a statistics software. Assessment: Written exam. Practical problems assessment THIRD YEAR 16374- Business Administration and Production Organisation I Semester 1; 75 Hours The enterprise and the market. Business decisions. Management Support. Teaching Method: Lectures. Assessment: Written exam. Continuos work. 16375- Industrial Constructions Semester 1; 45 Hours Design and construction of industrial plants. The project and the work. Materials in construction. Building Construction. Interior Design. Pathologies of construction. Teaching Method: Lectures. Assessment: Written exam. Practical work. V-4 16376- Machines Design I Semester 1; 75 Hours Machines and projects. Tensions and Strains. Materials in the project of machines. Mechanic behaviour of machines and elements of machines. Springs. Threads. Junctions between machines. Movement transmission. Gears. Teaching Method: Lectures. Practical works Assessment: Written exam. Practical works assessments. 16377- Technical Office Semester 1; 60 Hours Functions developed in the technical manufacturing office. Procedures for organising the production department. Introduction to carrying out technical studies. Project management. Teaching Method: Lectures. Assessment: Written exam. Practical work. 16378- Mechanical Technology I Semester 1; 75 Hours Metrology and Quality. Manufacturing Systems and Processes. Introduction to Numeric Control. Tools. Teaching Method:. Lectures. Practical problems. Laboratory Practices Assessment: Written exam. Laboratory practices are required. 16379- Structure Theory I Semester 1; 60 Hours Analysis of structures by classic methods and by matrix methods Teaching Method:. Lectures. Practical problems. Assessment: Written exam. 16381- Health, Safety and Ergonomics Semester 2; 30 Hours Risks. Safety. Fire. Health. Pollution. Ergonomic. Legislation. Teaching Method:. Lectures. Practical problems. Assessment: Written exam. 16380- Final Project Once all the obligatory courses have been collected, a Final Project has to be worked out. It also has to be defended by the author in front of a committee of Professors appointed by the School-Board. Both requirements need to be successfully me before receiving the official Diploma (Bachelor Degree). OPTIONAL COURSES 16214- Business Administration and Production Organisation II Semester 2; 45 Hours Economy. Economic systems. Economy in Spain. Business and businessmen. Juridical Protection of Businessmen. Type of business. Corporations. Limited liability companies. Money markets. Financial support. Teaching Method: Lectures. Assessment: Written exam. Continuos work. 16351- Geometric Fundamentals of Technical Drawing Semester 1; 30 Hours Fundamentals of geometric constructions. Inversion. Tangents. Homology. Conics. Affinity Teaching Method: Lectures. Practical problems. Practical work Assessment: Written exam. Assessment of practical work 16352- Mathematics Laboratory Semester 2; 30 Hours Analytical Mathematics in the plane and in the space. Conics. Quadrics. Teaching Method: Lectures V-5 Assessment: Laboratory trial with computer or continuous work. 16353- Further Programming Semester 2; 30 Hours The aim of this course is to complete the knowledge in programming that the student gets in the Fundamentals of Information Technology course. Teaching Method: Lectures. Practical problems. Laboratory practices. Assessment: Written exam. Assessment of the laboratory practices. 16354- Environmental Chemistry Semester 1; 30 Hours Environmental Impact Assessment. Environmental Impact on Water Quality. Environmental Impact on Air Quality. Environmental Impact on Earth. Specific Pollution. Teaching Method: Lectures. Practical problems. Laboratory practices Assessment: Written exam. Assessment of laboratory practices 16366- Automobiles Semester 2; 30 Hours Performance qualities. Engines. Wheels and pneumatics. Steering. Suspension. Brakes. Resistant structure. Accident reports. Electricity. Standards. Teaching Method: Lectures. Assessment: Written exam. 16367- Electrochemistry and Fundamentals of Corrosion Semester 2; 45 Hours Electrochemistry. Dry Corrosion. Wet Corrosion. Polarization and current of corrosion. Protection Techniques. Teaching Method: Lectures. Laboratory practices. Assessment: Written exam. Assessment of laboratory practices 16368- Fluid-Mechanical Engineering II Semester 2; 30 Hours Hydroelectric stations. Turbines. Turbo machines. Pumps. Teaching Method: Lectures. Practical problems. Laboratory Practices Assessment: Written exam. Laboratory practices assessment 16369- Mathematical Methods in Engineering II Semester 2; 30 Hours Numeric methods for solving problems of the initial value. Runge Kutta Methods. Teaching Method: Practices in the laboratory Assessment: Laboratory practices assessment or exam. 16370- Industrial Heat and Cold Complements Semester 2; 45 Hours Basic concepts on Industrial Heat and Cold. Heaters Installations. Industrial cold installations. Co-generation and trigeneration. Teaching Method: Lectures. Practical exercises. Assessment: Written exam. 16371- Welding Engineering Semester 2; 60 Hours Metallic construction welding. Materials. Welding chances. Fissures. Operative Techniques. Welding processes. Faults. Essays and controls. Welding calculations. Security and protection. Teaching Method: Lectures. Practical problems. Laboratory Practices Assessment: Written exam. Laboratory practices are required. 16372- Materials for Designing in Mechanical Engineering Semester 2; 60 Hours Further Materials. Selection and Design. Behaviour and failures. V-6 Teaching Method: Lectures. Practical problems. Assessment: Written exam. Assessment of practices 16382- Further Strength of Materials Semester 2; 45 Hours Finite Elements. Teaching Method: Lectures. Practical work Assessment: Written exam. Assessment of practical work. 16383- Further Thermal Engines Semester 2; 45 Hours History of the Thermal Engine. Combustion. Power and performance. Diesel Engines. Two times Engines. Teaching Method: Lectures. Practical problems Assessment: Written exam. Practical work will be required. 16384- Practices Semester 2; 45 Hours The student should look for an enterprise where he will stay doing a technical activity. Teaching Method: The student will have an engineer responsible in the company and a professor in the School. They should advise to the student in their work. Assessment: The responsible professor should assign a mark to the student from a final report. 16385- Structure Theory II Semester 2; 60 Hours Dynamic analysis of structures. Plastic Calculus on Structures. Teaching Method:. Lectures. Practical problems. Computer laboratory Assessment: Written exam. Assessment of computer laboratory 16386- Metallic and Concrete Structures Semester 2; 60 Hours Typology of structures and structural elements. Historic evolutions of structures. Standards. Building. Steel structures and Concrete structures: materials, limits, behaviour, pathologies. Teaching Method: Lectures. Practical problems Assessment: Written exam. 16387- Auxiliary Installations Semester 1; 45 Hours Industrial Installations. Water supplying and waste. Conditioning of buildings. Installations for protection. Installations in the future. Teaching Method: Lectures. Practical problems Assessment: Written exam. 16388- Machines Design II Semester 2; 60 Hours Computer aided engineering. Selection of materials. Ball-bearing. Vibrations. Quality and measurements in machines. Experimental measurements of tensions and strains. Other mechanical parameters. Machines maintenance. Teaching Method: Lectures. Practical problems Assessment: Written exam. Practical work will be required. 16389- Experimental and Numeric Methods in Mechanical Engineering Semester 1; 60 Hours Experimental methods for determining mechanical parameters. Numeric Methods for the simulations of mechanical parameters. Computer simulation of mechanical systems. Optimization in mechanical design. Teaching Method: Lectures. Practical problems. Assessment: Written exam or practical work. 16390- Regulation and Control of Machines V-7 Semester 2; 45 Hours Automatic Control Systems. Continuous Linear Systems Analysis. Design of Control Systems. Teaching Method: Lectures. Practical problems. Laboratory practices Assessment: 16391- Processes Engineering Semester 2; 60 Hours Times. Manual activities. Bi-manual diagrams. Measurement of times in methods. Formulas of time. Man-Machine diagram. Budgets. Teaching Method: Lectures. Practical problems Assessment: Written exam. 16392- Mechanical Technology II Semester 2; 60 Hours Advanced processes in manufacturing. Advanced processes in mechanization . Design and manufacturing of equipment. CAM Teaching Method:. Lectures. Practical problems. Assessment: Written exam. Practical works are required. 16393- Automatic Industrial Processes and Robotics Semester 1; 45 Hours Instrumentation. Regulators. Programmable automatons. Robots. Teaching Method: Lectures. Assessment: ?? 43907- Evolution of the Scientific and Technologic Knowledge Semester 2; 30 Hours Historic evolution of the technique. Historic evolution of the science. Teaching Method: Lectures. Assessment: Written exam. 43908- Reliability and Quality Semester 2; 45 Hours Reliability. Easy of maintenance. Availability. Quality controls. Measurement. Manufacturing processes. Teaching Method: Lectures. Practical problems. Assessment: Written exam. Assessment of practices 43909.- Topography and Construction Semester 2; 45 Hours Planimetry. Altimetry. Multiple measurements. Practices in the field. Materials in construction. Elements in construction. Works Rearrangements. Teaching Method: Lectures. Practical problems. Assessment: Written exam. Assessment of practices V-8