Course: Elasticity and Rigidity

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Course title Elasticity and Rigidity
Course code USE/KX018
Organizational form of instruction Lecture
Level of course Bachelor
Year of study 2
Semester Winter
Number of ECTS credits 6
Language of instruction Czech
Status of course Compulsory
Form of instruction unspecified
Work placements unspecified
Recommended optional programme components None
Lecturer(s)
  • Vysloužil Tomáš, Ing. Ph.D.
  • Polach Pavel, doc. Dr. Ing.
Course content
Contents: 1. Basic terms from mechanics of yielding body. 2. Traction and pressure of rods. Rod systems. 3. Bending straight and indirect beams statically defined supported. 4. Bending beams and frames static blankly supported. 5. Cutting. 6. Torsion direct beams. 7. Compressive vessel. 8. Compound tension. Rigidity hypotheses. 9. Dimensioning of mechanical parts. Loading of mechanical parts. 10. Dimensioning of quazistationary loaded part. 11. Dimensioning of dynamical loaded part. 12. Stability of mechanical part. Buckling of slim rods. 13. Principle of final element method (FEM).

Learning activities and teaching methods
unspecified
Learning outcomes
Elasticity and rigidity deal with inner force and deformations in mechanical parts and construction due to outer static or dynamic load and offer so basic information to their dimensioning and classification their serviceability and service life. Students will get knowledges and skills to rigidity and deformation analysis of mechanical part.
Prerequisites and co-requisites Knowledge to the extent necessary to solve problems in other subjects of the field, the ability to apply knowledge in the design and construction of machines. Students will gain technical imagination, connections and connections in the solution of machine parts and structures. After graduation, they can statically and dynamically dimension the basic shapes of machine units and parts.
Prerequisites
unspecified

Assessment methods and criteria
unspecified
Recommended literature
  • Apetaur, M., Hrala, T. Mechanika poddajných těles. Pružnost a pevnost. 2004.
  • Hájek, E a kol. Pružnost a pevnost I. a II.. 1984.
  • Höschl, C. Pružnost a pevnost ve strojírenství. 1971.
  • Němec, J., Dvořák, J., Höschl, C. Pružnost a pevnost ve strojírenství. 1989.
  • Pešina, J. a kol. Sbírka příkladů z pružnosti. 1973.


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester
Faculty: Faculty of Mechanical Engineering Study plan (Version): Materials and Technologies in Transport (16) Category: Mechanical engineering and mechanical production 2 Recommended year of study:2, Recommended semester: Winter
Faculty: Faculty of Mechanical Engineering Study plan (Version): Materials and Technologies in Transport (11) Category: Mechanical engineering and mechanical production 2 Recommended year of study:2, Recommended semester: Winter
Faculty: Faculty of Mechanical Engineering Study plan (Version): Materials and Technologies in Transport (17) Category: Mechanical engineering and mechanical production 2 Recommended year of study:2, Recommended semester: Winter
Faculty: Faculty of Mechanical Engineering Study plan (Version): Production Management (11) Category: Mechanical engineering and mechanical production 2 Recommended year of study:2, Recommended semester: Winter
Faculty: Faculty of Mechanical Engineering Study plan (Version): Production Management (16) Category: Mechanical engineering and mechanical production 2 Recommended year of study:2, Recommended semester: Winter
Faculty: Faculty of Mechanical Engineering Study plan (Version): Production Management (17) Category: Mechanical engineering and mechanical production 2 Recommended year of study:2, Recommended semester: Winter
Faculty: Faculty of Mechanical Engineering Study plan (Version): Energetics - Heat Industry (17) Category: Special and interdisciplinary fields 2 Recommended year of study:2, Recommended semester: Winter