Universidad Pública de Navarra - Nafarroako Univertsitate Publikoa
Public University of Navarre
| Course code: 242504 | Subject title: MACHINES THEORY | ||||
| Credits: 6 | Type of subject: Mandatory | Year: 3 | Period: 1º S | ||
| Department: Mechanical, Energy and Materials Engineering | |||||
| Lecturers: | |||||
| ROS GANUZA, JAVIER [Mentoring ] | BECERRIL RODRIGO, PEDRO JULIÁN [Mentoring ] | ||||
Contents
- Introduction to the Machine Theory.
- Kinematic Synthesis of Planar Mechanisms.
- Dynamic analysis of mechanisms
- Contact mechanisms: cams.
- Contact mechanisms: gears.
- Contact mechanisms: gear trains.
General proficiencies
The General Proficiencies that a student must achieve are:
CG1: Proficiency in writing, signing and development of projects in the industrial engineering environment in the three specific technologies: Mechanics, Electrics and Electronics. The purpose of these should be the construction, remodeling, repair, conservation, demolition, manufacture, installation, assembly or exploitation of structures, mechanics equipment, energy installations, electric and electronic installations, industrial plants and installations, and manufacturing and automation processes.
CG2: Proficiency in managing the project activities mentioned in the previous point.
CG3: Knowledge of the basic subjects and technologies leading to the ability to self-learning of new methods and theories and to the adaption to new situations.
CG4: Proficiency in solving problems on their own, making decisions, being creative, reasoning in a critical manner and communicating and transmitting knowledge, skills and abilities in the field of Industrial Engineering in the three specific technologies: mechanics, electrics and electronics.
CG5: The student should learn to make measurements, calculations, assessments, evaluations, reports, working plans and other related activities.
Specific proficiencies
The Specific Proficiencies that a student must achieve are:
CC7: Knowledge of the principles of the Mechanism and Machine Theory.
Learning Results. When the subject is passed the student should be able to:
- Develop projects involving mechanical installations, using current design trends.
- Sufficient knowledge on mechanics, to make them able to learn new methods and theories and to handle new situations.
- Express and communicate ideas related to machine and mechanic elements.
- Understand and prepare technical or professional documentation in the context of the activities related to machine and mechanic elements, specially those related to explain conceptual designs.
- To master the calculations involved in the design and analysis of machine and mechanic elements using computational methods and tools.
Methodology
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Methodology - Activity
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Lesson Hours
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Non-Lesson Hours
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A-1 Theory Lessons
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26
|
|
|
A-2 Practicals, Lessons and Lab
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26
|
|
|
A-3 Debates, sharing data, group tutorship
|
|
|
|
A-4 Assigned work development
|
|
14 |
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A-5 Reading
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2
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12
|
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A-6 Individual studying
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60
|
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A-7 Exams and evaluation tests
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6
|
|
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A-8 Individual tutorship
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4
|
|
|
|
|
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Total
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60
|
90
|
Evaluation
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Aspect
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Criteria
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Evaluation instrument
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Weight (%)
|
|
Proficiency Evaluation: CG-1, CG-2, CG-3, CG-4, CG-5, CC7 |
- Correct set out of the problems to be solved.
- Correct use of the resolution methodology
- Quantitative accuracy - Analysis of the results
|
- Long answer tests.
- Minimum mark: 5/10
- It can be repeated. (It is necessary, though, to try to pass at least 2 out of 3 partial exams).
|
82%
|
|
Proficiency Evaluation: CG-1, CG-2, CG-3, CG-4, CG-5, CC7 |
- Identification of key concepts and understanding of the theoretical and practical concepts. - Correctly solve a problem using the available data. |
- Reports
- Minimum mark: 5/10 and on-time report submitting
- Not repeatable |
6%
|
|
Proficiency Evaluation: CG-1, CG-2, CG-3, CG-4, CG-5, CC7 |
- Understandig of the theoretical and practical concepts. - Accuracy when measuring experimental phenomena. - Clarity of exposition. - On-time report submission. |
- Reports
- Minimum mark: 5/10 and on time report submitting
- Not repeatable |
12%
|
Agenda
BLOCK 1: General Concepts and Synthesis of Linkages
Topic 1: General concepts related to linkages
Topic 2: Graphic Synthesis of Linkages
Topic 3: Analytical Synthesis of Linkages
BLOCK 2: Balancing, Gyroscopic Effect and Flywheels
Topic 4: Balancing of shafts and mechanisms
Topic 5: Gyroscopic Effects
Topic 6: Flywheels
BLOCK 3: Direct Contact Mechanisms
Topic 7: Cams
Topic 8: Gears
Topic 9: Gear trains
Bibliography
Access the bibliography that your professor has requested from the Library.
TEORÍA DE MÁQUINAS
Authors: A. Cardona, D. Clos
Editorial: Ediciones UPC, 2001
TEORÍA DE MÁQUINAS Y MECANISMOS
Authors: J.E. Shigley and J.J. Uicker, Jr.
Editorial: McGraw-Hill, México, año 1994
DESIGN OF MACHINERY.
Authors: R. L. Norton
Editorial: McGraw-Hill
DISEÑO DE MECANISMOS. ANÁLISIS Y SÍNTESIS, 3/e
Authors: A. G. Erdman and G. N. Sandor
Editorial: Prentice-Hall, año 1998
KINEMATICS AND DYNAMICS OF MACHINERY, 2/e
Authors: Ch. E. Wilson and J. P. Sadler
Editorial: Harper Collins College Publishers, año 1993
MECHANISMS AND DYNAMICS OF MACHINERY
Authors: H.H. Mabie and Ch.F. Reinholtz
Editorial: Wiley, año 1987