Guías Docentes Electrónicas
1. General information
Course:
MACHINE DESIGN
Code:
310622
Type:
CORE COURSE
ECTS credits:
6
Degree:
2328 - MASTERS DEGREE PROGRAMME IN INDUSTRIAL ENGINEERING
Academic year:
2021-22
Center:
602 - E.T.S. INDUSTRIAL ENGINEERING OF C. REAL
Group(s):
10  20  21 
Year:
1
Duration:
First quarter
Main language:
Spanish
Second language:
English
Use of additional languages:
English Friendly:
N
Web site:
Bilingual:
Y
Lecturer: JESUS MIGUEL CHACON MUÑOZ - Group(s): 20 
Building/Office
Department
Phone number
Email
Office hours
Politécnico/2-A08
MECÁNICA ADA. E ING. PROYECTOS
3858
jesusmiguel.chacon@uclm.es
By appointment (send e-mail)

Lecturer: PUBLIO PINTADO SANJUAN - Group(s): 20  21 
Building/Office
Department
Phone number
Email
Office hours
Politécnico / 2-A14 (coordinador)
MECÁNICA ADA. E ING. PROYECTOS
5717/3824
publio.pintado@uclm.es
By appointment (send e-mail)

Lecturer: FRANCISCO JAVIER SANCHEZ-REYES FERNANDEZ - Group(s): 20  21 
Building/Office
Department
Phone number
Email
Office hours
Politécnico/2-A09
MECÁNICA ADA. E ING. PROYECTOS
3828
javier.sanchezreyes@uclm.es
By appointment (send e-mail)

2. Pre-Requisites

A solid background in the following fields is required:

  • Dynamics, mechanisms, machine components. The student must have taken courses such as: "Mechanism and machine theory", "Theory of elasticity and strength of materials", "Machine component design", or "Mechanisms and structures".
  • Engineering graphics. All courses in this field, as required for a bachelor's degree in engineering, must have been taken.
3. Justification in the curriculum, relation to other subjects and to the profession

Reasons for including this course in the program 

This subject or course belongs to the group designated "Industrial Tecnologies", and is linked to specific abilities as described in the Appendix of CIN/311/2009 (February-9-2009). This regulation specifies the requirements of study programs that confer the status of Professional Industrial Engineer.

The course reinforces abilities that are key in the development of Master's Dissertations related to mechanical design.

 


4. Degree competences achieved in this course
Course competences
Code Description
A01 To have appropriate knowledge of the scientific and technological aspects of mathematical, analytical and numerical methods in engineering, electrical engineering, energy engineering, chemical engineering, mechanical engineering, continuous medium mechanics industrial electronics, automation, manufacturing, materials, quantitative management methods, industrial computing, town planning, infrastructures, etc.
A02 To plan, calculate and design products, processes, facilities and plants.
B03 Capacity to design and test machines.
CB06 Knowledge and skills to organise and manage enterprises.
CB07 Strategy and planning knowledge and skills applied to different organisational structures.
CB08 Knowledge of commercial and labour law.
CB09 Knowledge of financial and costs accounting.
CB10 Knowledge of information systems for management, industrial organisation, production, logistics and quality management systems.
D05 Knowledge of transportation and industrial maintenance methods and techniques.
5. Objectives or Learning Outcomes
Course learning outcomes
Description
Acquire knowledge to enable them to design and analyse machines and mechanisms.
Apply the basic features of computer tools for solid modelling, kinematic and dynamic analysis of mechanisms, and stress and deformation analysis in key components.
Use a process of learning-by-doing, being assigned the design of a machine or mechanism with a specific function and requirements. With the assistance and tuition of the teaching staff responsible for the course, students will have to complete the design of a machine or mechanism with all its mechanical and geometric details.
Additional outcomes
Not established.
6. Units / Contents
  • Unit 1: Introduction to machine design.
  • Unit 2: Principles and computer tools for solid modelling.
  • Unit 3: Principles and computer tools for kinematic and dynamic analysis of mechanisms and machines.
7. Activities, Units/Modules and Methodology
Training Activity Methodology Related Competences ECTS Hours As Com Description
Class Attendance (theory) [ON-SITE] Lectures A01 A02 B03 CB06 CB07 CB08 CB10 D05 0.6 15 N N Theoretical content explained in the classroom. The content is also discussed with the active participation of students.
Class Attendance (practical) [ON-SITE] Lectures A01 A02 B03 CB06 CB07 CB08 CB10 D05 0.4 10 N N Problem solving in class while encouraging student participation.
Computer room practice [ON-SITE] Cooperative / Collaborative Learning A01 A02 B03 CB07 CB10 0.4 10 Y N Hands-on work in the lab and/or the computer room
Workshops or seminars [ON-SITE] Workshops and Seminars A01 CB06 CB07 CB09 CB10 0.2 5 N N Practical exercises. Group discussion of results.
Final test [ON-SITE] Combination of methods A02 B03 CB06 CB07 CB09 0.2 5 Y N Personal or group meetings (direct interaction instructor-student), as well as midterm presentation of projects for discussion, comments and advise.
Group tutoring sessions [ON-SITE] Group Work A02 B03 CB06 CB07 CB08 CB09 0.2 5 Y Y Presentations.
Writing of reports or projects [OFF-SITE] Guided or supervised work A02 B03 CB06 CB07 CB08 CB09 4 100 Y Y Work to be done by the students on their own under the supervision of the instructor.
Total: 6 150
Total credits of in-class work: 2 Total class time hours: 50
Total credits of out of class work: 4 Total hours of out of class work: 100

As: Assessable training activity
Com: Training activity of compulsory overcoming (It will be essential to overcome both continuous and non-continuous assessment).

8. Evaluation criteria and Grading System
Evaluation System Continuous assessment Non-continuous evaluation * Description
Projects 10.00% 0.00% Progress assessment.
Practicum and practical activities reports assessment 10.00% 10.00% Grade corresponding to the report submitted for evaluation.
Final test 70.00% 90.00% Grade corresponding to the presentation of the assigned project.
Laboratory sessions 10.00% 0.00% Assessment of performance in computer lab sessions.
Total: 100.00% 100.00%  
According to art. 6 of the UCLM Student Evaluation Regulations, it must be provided to students who cannot regularly attend face-to-face training activities the passing of the subject, having the right (art. 13.2) to be globally graded, in 2 annual calls per subject , an ordinary and an extraordinary one (evaluating 100% of the competences).

Evaluation criteria for the final exam:
  • Continuous assessment:
    Continuous assessment based on instructor-student interaction.
    In order to pass this course the following conditions should be met: N1>=5 AND N2>=5
    Final grade (if conditions are met) = (N1+N2)/2
  • Non-continuous evaluation:
    In order to pass this course the following conditions should be met: N1>=5 AND N2>=5
    Final grade (if conditions are met) = (N1+N2)/2

Specifications for the resit/retake exam:
A final exam does not apply since grading of this course is based on the presentation of a design project.
Specifications for the second resit / retake exam:
A final exam does not apply since grading of this course is based on the presentation of a design project.
In compliance with the regulations in art.14 (2) of "Reglamento de evaluación del estudiante de la UCLM" (UCLM student evaluation rules), the exam option is not available due to the specific characteristics of the educational activities and grading system (projects and group presentation) of the course.
9. Assignments, course calendar and important dates
Not related to the syllabus/contents
Hours hours
Final test [PRESENCIAL][Combination of methods] 5
Group tutoring sessions [PRESENCIAL][Group Work] 5
Writing of reports or projects [AUTÓNOMA][Guided or supervised work] 100

Unit 1 (de 3): Introduction to machine design.
Activities Hours
Class Attendance (theory) [PRESENCIAL][Lectures] 4.5
Class Attendance (practical) [PRESENCIAL][Lectures] 2

Unit 2 (de 3): Principles and computer tools for solid modelling.
Activities Hours
Class Attendance (practical) [PRESENCIAL][Lectures] 5
Computer room practice [PRESENCIAL][Cooperative / Collaborative Learning] 5
Workshops or seminars [PRESENCIAL][Workshops and Seminars] 3.5

Unit 3 (de 3): Principles and computer tools for kinematic and dynamic analysis of mechanisms and machines.
Activities Hours
Class Attendance (theory) [PRESENCIAL][Lectures] 10.5
Class Attendance (practical) [PRESENCIAL][Lectures] 3
Computer room practice [PRESENCIAL][Cooperative / Collaborative Learning] 5
Workshops or seminars [PRESENCIAL][Workshops and Seminars] 1.5

Global activity
Activities hours
General comments about the planning: Since the evolution of the COVID-19 pandemic cannot be forecast, the methodologies and contents specified in this guide may have to be modified as needed. Even the grading system may require some adjusting. This will be done with the approval of "Vicerrectorado de Docencia" and making sure that the educational goals of this course are met.
10. Bibliography and Sources
Author(s) Title Book/Journal Citv Publishing house ISBN Year Description Link Catálogo biblioteca
 
Chacón, J.M., Sánchez-Reyes,J. Expresión Gráfica en Ingeniería Industrial San Sebastián Donostiarra 978-84-7063-476-5 2013 Texto básico sobre dibujo normalizado www.editoraldonostiarra.com Ficha de la biblioteca
Erdman, A. G. Mechanism Design: Analysis and Synthesis, Vol. I Prentice-Hall 1997  
Gómez, S. El gran libro de SolidWorks Marcombo 978-8426726575 2019 Texto básico sobre SolidWorks https://www.marcombo.com/el-gran-libro-de-solidworks-3aed-9788426726575/  
Hamrock, Bernard J. Elementos de máquinas McGraw-Hill/Interamericana 970-10-2799-X 2000 Ficha de la biblioteca
Juvinall, Robert C. Fundamentals of machine component design John Wiley & Sons 0-471-24448-1 2000 Ficha de la biblioteca
Mabie, Hamilton H. Mecanismos y dinámica de maquinaria Limusa Wiley 978-968-18-4567-4 2007 Ficha de la biblioteca
Mott, Robert L. Diseño de elementos de máquinas Pearson Educación 978-970-26-0812-7 2006 Ficha de la biblioteca
Pintado, Publio Teoría de Máquinas UCLM 1999  
Shigley, Joseph Edward Diseño en ingeniería mecánica McGraw-Hill Interamericana 970-10-3646-8 2002 Ficha de la biblioteca
Spotts, Merhyle Franklin Elementos de máquinas Prentice Hall 970-17-0252-2 1999 Ficha de la biblioteca
Sánchez-Reyes, J., Chacón, J.M. Apuntes de la asignatura UCLM Campus virtual 2021 https://campusvirtual.uclm.es/  
Tran, P. SolidWorks 2021. Basic Tools SDC Publications 978-1630574154 2020 Texto básico sobre SolidWorks https://www.sdcpublications.com/Textbooks/SOLIDWORKS-2021-Basic-Tools/ISBN/978-1-63057-415-4/  



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