Strength of Materials I. (E111051)
Departments:ústav mechaniky, biomech.a mechatr. (12105)
Abbreviation:SMIApproved:31.03.2015
Valid until: ??Range:3P+3C
Semestr:Credits:7
Completion:Z,ZKLanguage:EN
Annotation
This course is to provide the ability to comprehend and analyze basic types of loading of simple machine members in order to determine their stress states and deformations. This provides tools for dimensioning the members and/or determining their allowable loading. This subject also provides the prerequisite for other advanced and special courses concerning the theory of elasticity and plasticity. Seminars are devoted to practical design and computation of simple machine elements.
Teacher's
doc. Ing. Tomáš Mareš Ph.D.
Letní 2023/2024
doc. Ing. Tomáš Mareš Ph.D.
Letní 2022/2023
doc. Ing. Tomáš Mareš Ph.D.
Letní 2021/2022
Structure
1. Tension and compression.
2. Trusses both statically determinate and indeterminate
3. 2D- and 3D-stress state (principal stresses and planes and maximum shearing stress).
4. Strain energy for multiaxial stress state.
5. Theories of failure.
6. Torsion of circular bars.
7. Centroids, second moments of area, and products of inertia of plane areas.
8. Bending of beams (shearing force, bending moment, normal and shearing stresses in beams).
9. Deflection of beams.
10. Statically indeterminate beams.
11. Combined loading (unsymmetrical bending; bars with axial loads; bending and torsion; torsion and tension; bending and shear).
12. Design for fatigue strength (cyclic loading; S-N diagram; Smith's and High's fatigue diagrams)
13. Safety factors for fatigue strength; stresses due to combined loading.
14. Thin-walled rotational membranes.
Structure of tutorial
1. Tension and compression.
2. Trusses both statically determinate and indeterminate
3. 2D- and 3D-stress state (principal stresses and planes and maximum shearing stress).
4. Strain energy for multiaxial stress state.
5. Theories of failure.
6. Torsion of circular bars.
7. Centroids, second moments of area, and products of inertia of plane areas.
8. Bending of beams (shearing force, bending moment, normal and shearing stresses in beams).
9. Deflection of beams.
10. Statically indeterminate beams.
11. Combined loading (unsymmetrical bending; bars with axial loads; bending and torsion; torsion and tension; bending and shear).
12. Design for fatigue strength (cyclic loading; S-N diagram; Smith's and High's fatigue diagrams)
13. Safety factors for fatigue strength; stresses due to combined loading.
14. Thin-walled rotational membranes.
Literarture
1. Sochor, M.: Strength of Materials I, CTU Publishing House, Prague, 1998,
2. Nash, W.A.: Strength of Materials, Schaum's outline series, 2nd edition, McGraw-Hill, INC, 1998
3. Gere, J.M: Mechanics of Materials, Thomson Learning, Inc. 2004
Requirements
Main therms of Statics
Keywords
2D and 3D stress state; strain energy; loading in tension, compression, bending and torsion; fatigue strength; thin-walled rotational membranes
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