Detail předmětu
Erasmus+ Blended Intensive Programme: Material and Structural Integrity Aspects
Akademický rok 2024/25
VDC002 předmět není zařazen v žádném programu fakulty
The aim of the program is to familiarize students with the selected material and structural aspects – in particular describe material behaviour, methods of measurement of materials properties (including fracture and fatigue) and materials application on civil engineering area.
- Introduction to mechanics of material, theory of materials failures
- Linear elastic fracture mechanics – energy/stress approach
- Fracture parameters of material.
- Methods for determination of fracture parameters, function of geometry
- Fatigue properties of materials
- Fatigue lifetime prediction – analytical tutorial
- Numerical analysis in fatigue and fracture
- Technical excursion on selected fatigue loaded construction
- Fatigue and fracture testing-tricks and tips from laboratories
Kredity
3 kredity
Jazyk studia
čeština
semestr
letní
Garant předmětu
Zajišťuje ústav
Způsob a kritéria hodnocení
zápočet
Vstupní znalosti
Basic knowledge of structure mechanics, matrix and vector algebra, infinitesimal calculus, fundamentals of numerical mathematics.
Učební cíle
Lectures are oriented to students of Blended Intensive Programme with aim to make their knowledge in Material and Structural Integrity Aspects. The topics are selected from the point of view of their application in advance structure analysis.
Základní literatura
EN 1993-1-1:2005 Eurocode 3: Design of steel structures - Part 1-1: General rules and rules for buildings (cs)
EN 1993-1-9:2005 Eurocode 3: Design of steel structures - Part 1-9: Fatigue (cs)
EN 1993-2:2006 Eurocode 3: Design of steel structures - Part 2: Steel bridges (cs)
Anderson, T.L. (2017). Fracture Mechanics: Fundamentals and Applications, Fourth Edition (4th ed.). CRC Press. (cs)
Tada, H., Paul C. Paris a G. R. Irwin. 2000. The stress analysis of cracks handbook. 3rd ed. New York: ASME Press. (cs)
Suresh, S.: Fatigue of Materials (2nd ed.), Cambridge Univ. Press, Cambridge, UK (1998) (cs)
Pook, L.P., 2000. Linear Elastic Fracture Mechanics for Engineers: Theory and Applications 1st ed., London: WIT Press (cs)
Klesnil, M, Lukáš, P., 1992. Fatigue of Metallic Materials. Elsevier Science Publishers, Amsterdam. 270 p. (cs)
Schijve, J.: 2003. Fatigue of structures and materials in the 20th century and the state of the art, Int J Fatigue, 25, 679–702. (cs)
EN 1993-1-9:2005 Eurocode 3: Design of steel structures - Part 1-9: Fatigue (cs)
EN 1993-2:2006 Eurocode 3: Design of steel structures - Part 2: Steel bridges (cs)
Anderson, T.L. (2017). Fracture Mechanics: Fundamentals and Applications, Fourth Edition (4th ed.). CRC Press. (cs)
Tada, H., Paul C. Paris a G. R. Irwin. 2000. The stress analysis of cracks handbook. 3rd ed. New York: ASME Press. (cs)
Suresh, S.: Fatigue of Materials (2nd ed.), Cambridge Univ. Press, Cambridge, UK (1998) (cs)
Pook, L.P., 2000. Linear Elastic Fracture Mechanics for Engineers: Theory and Applications 1st ed., London: WIT Press (cs)
Klesnil, M, Lukáš, P., 1992. Fatigue of Metallic Materials. Elsevier Science Publishers, Amsterdam. 270 p. (cs)
Schijve, J.: 2003. Fatigue of structures and materials in the 20th century and the state of the art, Int J Fatigue, 25, 679–702. (cs)
Nabízet zahraničním studentům
Nabízet studentům všech fakult
Předmět na webu VUT
Cvičení
13 týdnů, 2 hod./týden, nepovinné
Osnova
- Introduction to mechanics of material, theory of materials failures
- Linear elastic fracture mechanics – energy/stress approach
- Fracture parameters of material.
- Methods for determination of fracture parameters, function of geometry
- Fatigue properties of materials
- Fatigue lifetime prediction – analytical tutorial
- Numerical analysis in fatigue and fracture
- Technical excursion on selected fatigue loaded construction
- Fatigue and fracture testing-tricks and tips from laboratories