Educational guide | ||||||||||||||||||||||||||||||||||||||||
IDENTIFYING DATA | 2024_25 | |||||||||||||||||||||||||||||||||||||||
Subject | MANUFACTURING PROCESSES | Code | 00710323 | |||||||||||||||||||||||||||||||||||||
Study programme |
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Descriptors | Credit. | Type | Year | Period | ||||||||||||||||||||||||||||||||||||
6 | Compulsory | Third | First |
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Language |
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Prerequisites | ||||||||||||||||||||||||||||||||||||||||
Department | ING.MECANICA,INFORMAT.AEROESP. |
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Coordinador |
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prodm@unileon.es sgigf@unileon.es prodrg@unileon.es |
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Lecturers |
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Web | http:// | |||||||||||||||||||||||||||||||||||||||
General description | ||||||||||||||||||||||||||||||||||||||||
Tribunales de Revisión |
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Competencias |
Code | |
A17695 | |
A17696 | |
B959 | |
B5474 | |
B5478 | |
C2 | CMECES2 That students know how to apply their knowledge to their work or vocation in a professional manner and possess the skills that are usually demonstrated through the development and defense of arguments and the resolution of problems within their area of study. |
C3 | CMECES3 That students have the ability to gather and interpret relevant data (normally within their area of study) to make judgments that include reflection on relevant issues of a social, scientific or ethical nature. |
Learning aims |
Competences | |||
The student knows the fundamentals of manufacturing engineering applied to machining and quality control. The student knows the fundamentals of manufacturing engineering applied to the forming and deformation of metals. The student knows the fundamentals of manufacturing engineering applied to the forming of polymers and composites. | A17695 A17696 |
B959 B5474 B5478 |
C2 C3 |
Contents |
Topic | Sub-topic |
Part I: MANUFACTURING MANAGEMENT | Lesson 1: INTRODUCTION TO MANUFACTURING PROCESSES Concept of material transformation and workpiece. Lesson 2: INTRODUCTION TO PROCESSES AUTOMATION Computerized Numerical Control and Programming Lesson 3: INTRODUCTION TO PROCESS PLANNING Selection and Sequencing of processes Lesson 4: CONCURRENT ENGINEERING Stages of Design and Coordination |
Part II: METROLOGY | Lesson 1: INTRODUCTION TO METROLOGY Dimensional, geometric and finishing tolerances Lesson 2: UNCERTAINTY IN MEASURES Trazability and Calibration Lesson 3: MEASURING INSTRUMENTS Macrogeometric and microgeometric measures Lesson 4: FUNDAMENTS OF QUALITY CONTROL Statistical Process Control and Process Capacity |
Part III: POLYMERS AND COMPOSITES MANUFACTURING | Lesson 1: POLYMER FORMING PROCESSES Types of polymers, extrusion and moulding of polymers Lesson 2: COMPOSITES FORMING PROCESSES Extrusion, moulding and piling |
Part IV: CHIP REMOVAL FORMING PROCESSES | Lesson 1: CUTTING THEORY Geometry and mechanics of cutting Lesson 2: SPECIFIC OPERATIONS OF MACHINING Turning, milling and drilling |
Part V: PROCESSES OF DEFORMATION AND MOULDING OF METALS | Lesson 1: BULK DEFORMATION PROCESSES Rolling, Extrusion and Filing Lesson 2: SHEET METAL FORMING Cutting, bending and drawing Lesson 3: MOULDING General description, casting, solidification |
Planning |
Methodologies :: Tests | |||||||||
Class hours | Hours outside the classroom | Total hours | |||||||
Laboratory practicals | 12 | 0 | 12 | ||||||
Other methodologies | 12 | 12 | 24 | ||||||
Lecture | 30 | 45 | 75 | ||||||
Mixed tests | 4 | 30 | 34 | ||||||
Practical tests | 2 | 3 | 5 | ||||||
(*)The information in the planning table is for guidance only and does not take into account the heterogeneity of the students. |
Methodologies |
Description | |
Laboratory practicals | For tutorials in the workshops, the teacher will guide the students in knowing the safety and behavior rules in the use of the basic equipment and instruments of a production workshop. Attendance at these sessions is mandatory if you wish to carry out the activities proposed in these practices. Practices with specific software will also be proposed in the Integrated Systems laboratory, which will also be evaluated during their development. |
Other methodologies | In addition to laboratory tutorials, the teacher will propose other face-to-face activities during the course, such as carrying out specific exercises, case studies, group tutorials and/or debates with the intention of encouraging and awakening the student's interest in the subject taught. . These activities will always be in person and in groups |
Lecture | The lecturer will use the lectures to transmit to the students the fundamental concepts of the subject, clearly identifying the objectives of each block/topic, and specifying what the students are expected to know or be able to do as a result of the teaching process. -learning. During these sessions, the teacher will use slides that he will leave to the students in advance in the Moodle tool. It is intended that the student is not a mere observer in classes, so the teacher will ask questions and ask students to participate in different activities. Attendance at these classes will not be mandatory. |
Personalized attention |
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Assessment |
Description | Qualification | ||
Laboratory practicals | All tutorials will have one or more activities according to which their assessment will be carried out. This assessment will be carried out in person, during or at the end of each practice. | 25% | |
Mixed tests | Mixed tests will be carried out to assess the problems and theory part of the subject. - There will be 2 partial exams on theory and problems throughout the course. The total score will be 8 points (4 points per partial). It will be necessary to obtain a minimum of 40% in each midterm to be able to add the rest of the grades obtained during the course. |
75% | |
Other comments and second call | |||
In the second call, the student has to recover the mixed tests not passed in the first call. The same qualification criteria as in the first call will be applied. |
Sources of information |
Access to Recommended Bibliography in the Catalog ULE |
Basic |
J.M. Lasheras, Tecnología Mecánica y Metrotecnia, S.A. Donostiarra, G. Boothroyd, W.A. Knight., Fundamentals of Metal Machining and Machine Tools, CRC Press, Mikell P. Groover, Fundamentos de Manufactura Moderna, Pearson, S. Kalpakjian; S.R. Schmid, Manufactura, ingeniería y tecnología, Prentice Hall, |
Complementary |
John A. Schey , Procesos de manufactura, McGraw Hill , Jesús M. Pérez, Tecnología Mecánica I, E.T.S.Ingenieros Industriales de Madrid, |
Recommendations |
Subjects that it is recommended to have taken before | ||
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