Course detail

Machine Design - Machine Elements

FSI-5KS-KAcad. year: 2024/2025

The aim of the course is to provide an overview of machine parts and joints like mechanical springs, bearings, axles and shafts and bolted, riveted, welded and bonded joints. Attention is paid especially to get understanding of their function and learn the methods used in their design process. The course integrates the knowledge acquired in theoretical courses of Mechanical Engineering Bachelor's degree programme, particularly in branches of materials science and mechanics.

Language of instruction

Czech

Number of ECTS credits

6

Mode of study

Not applicable.

Guarantor

prof. Ing. Martin Hartl, Ph.D.

Department

Institute of Machine and Industrial Design (ÚK)

Entry knowledge

Knowledge:
- materials science (choice of materials),
- statics (load analysis),
- elasticity and strength (stress and strain analysis).

Passing the course: 4PP Strength of Materials I.

Rules for evaluation and completion of the course

The course is completed by taking an exam after the previous awarding of the credit.
The credit confirms that the student actively participated in the work during the semester and received at least 50 points out of a maximum of 100 points. The criterion of point evaluation is the degree of ability to solve assigned tasks correctly and independently. The points from the credit do not transfer to the exam.
The exam investigates the complex mastery of the subject matter defined in the course card and especially the ability to apply the acquired knowledge independently and creatively. The level of mastery of the issue is evaluated in the range of 0 to 100 points. The student must obtain at least 50 points out of maximum of 100 points.
The exam has a written and an oral part. The written part of the exam is mandatory for all students. It consists of four calculation tasks. The oral part of the exam is voluntary.
Lectures: attendance is voluntary.
Exercises: attendance is mandatory and controlled by the teacher. Maximum of two absences are allowed in total. In case of long-term absence, compensation for missed classes is in the competence of the course guarantor.

Aims

Students will be able to analyse and design basic machine components such as mechanical joints, energy accumulators, bearings and seals.
- Understanding the mechanisms and causes of failure of machine parts.
- Knowledge of the principle, calculation and use of basic machine parts.
- Ability to apply the acquired knowledge in the design of new machines and equipment.

Study aids

Not applicable.

Prerequisites and corequisites

Basic literature

Shigley, J.E., Mischke, Ch.R., Budynas, R.G.: Mechanical Engineering Design. New York, The McGraw-Hill Companies, 7th edition, 2004, ISBN-13: 978-0072921939

Recommended reading

Dejl, Z.: Konstrukce strojů a zařízení I – Spojovací části strojů. Ostrava, Montanex a.s. 2000. ISBN 80-7225-018-3
Leinveber, J., Vávra, P.: Strojnické tabulky. Praha, ALBRA, 2006, ISBN 80-7361-033-7

Classification of course in study plans

  • Programme B-STR-K Bachelor's

    specialization SSZ , 3 year of study, winter semester, compulsory

Type of course unit

 

Guided consultation in combined form of studies

22 hod., compulsory

Teacher / Lecturer

Ing. Pavel Ždímal, CSc.

Syllabus

1. Introduction to the mechanical engineering design. Limit states, design factor, factor of safety.
2. Failures resulting from static loading. Fatigue failures resulting from variable loading.
3. Shafts and axles. Connections of the shaft and the hub.
4. Surfaces of machine elements. Contact of solids. Friction, lubrication and wear.
5. Classification of the mechanical connections. Power screws. Threaded fasteners.
6. Preloaded bolt connections. Riveted joints.
7. Welded, soldered, and bonded joints.
8. Helical compression, extension and shear springs. Disc and leaf springs.
9. Rolling bearings. The dependence between load, durability and reliability. Combined and variable loading.
10. Modified bearing life equation. Tapered bearings. Lubrication of bearings and bearing design.
11. Theory of hydrodynamic lubrication. Radial journal bearings with hydrodynamic lubrication.
12. Pressure-fed radial journal bearings. Radial journal bearings with boundary lubrication.
13. Pipes and fittings.

Guided consultation

43 hod., optionally

Teacher / Lecturer

prof. Ing. Martin Hartl, Ph.D.

Syllabus

1. Load analysis, stress and strain analysis.
2. Failures resulting from static loading.
3. Fatigue failure resulting from variable loading.
4. Stress analysis of shafts.
5. Deformation and vibration analysis of the shafts. Connections of the shaft and the hub.
6. Contact stresses and fatigue contact strength.
7. Analysis of preloaded bolt connections under static and fatigue tensile load.
8. Bolted and riveted joints loaded perpendicularly to the axis.
9. Welded joints.
10. Helical compression and extension springs.
11. Rolling bearings.
12. Radial journal bearings under hydrodynamic and boundary lubrication.
13. Summary of the subject matter.