1. Introduction to the design of machine elements
1.1. Machine design
1.2. Design factors
1.3. Calculation report
2. Pressurized elements
2.1. Thin wall elements
2.2. Thick wall elements
2.3. Fittings
3. Roller-contact bearings
3.1. Types and functions
3.2. Calculation of contact-roller bearings
3.3. Assembly of roller-contact bearings
3.4. Defects and failures of contact-roller bearings
4. Lubrication bearings
4.1. Types of lubricant films
4.2. Thick-film lubrication bearings
4.3. Stability
4.4. Thin and mixed film lubrication bearings
5. Gears
5.1. Spur gears
5.2. Helical gears
5.3. Bevel gears
5.4. Worm gears
6. Springs
6.1. Types of springs
6.2. Stresses in springs
6.3. Calculation of springs
6.4. Critical frequency
7. Bolted joints
7.1. Pre-loading theory
7.2. Load distribution in joints
7.3. Axially-loaded joints
7.4. Transversely-loaded joints
7.5. Mixed-loading joints
8. Welded joints
8.1. Static loading
8.2. Fatigue loading
9. Application case
The final mark of the course will be determined according to:
- If the final mark of the exam is greater or equal to 4 over 10:
25% Application case
25% Practical sessions
50% Exam (30% problems and 20% application case)
- If the final mark of the exam is lower than 4 over 10:
60% Problems of exam
40% Application case of exam
During the course, students will not have the opportunity to correct the different tasks and deliver them again in order to improve the assimilation of the concepts of the course. However, those students that fail because of the final exam but with mark equal or higher than 3, will have the opportunity to do again the final exam.
Criteris específics de la nota «No Presentat»:
All students that fail to present on due time the Application case or Exam will be qualified as NO PRESENTAT