Detail předmětu

Prvky kovových konstrukcí

FAST-O24Ak. rok: 2020/2021

Historical development and modern usage of steel structures in civil engineering. Process of design and building arrangement.
Design of industrial buildings. Roof structure (purlins and sheeting rails, roof girders and trusses, roof bracing). Crane girders. Frame structure. Single-storey frame connections. Columns and column basis.
Design of multi-storey buildings. General arrangement and analysis of structural system. Flooring systems. Building frame. Multi-storey frame connections. Columns. Beams. Bracing structures of the building. Columns and column basis.
Fabrication of steel structures. Erection. Corrosion protection. Fire protection and fire engineering.
Learning from failures.

Jazyk výuky

čeština

Počet kreditů

4

Garant předmětu

prof. Ing. Jindřich Melcher, DrSc.

Zajišťuje ústav

Ústav kovových a dřevěných konstrukcí (KDK)

Výsledky učení předmětu

Student nastuduje a zvládne cíle předmětu zaměřené na problematiku
navrhování prvků kovových konstrukcí, z hlediska obsahu podrobněji
rozvedenou v harmonogramu příslušného předmětu.

Prerekvizity

members of steel structures

Osnovy výuky

1. Disposition arrangement and loading.
2. Design of industrial building structures. Composition of roof construction (roof cladding, spars)
3. Simple plate and latticed purlins; jointed, continuous, truss and suspended purlins.
4. Plate and latticed roof girders, roof bracings.
5. Bearings and additional roof structures.
6. Crane runway system in industrial buildings. Crane runways for bridge cranes: loading, rails, a main girder of a crane runway.
7. Design and constructional design of a main girder and a horizontal stiffening girder of a crane runway. Principle of a transmission of a brake force of bridge cranes to the foundations.
8. Systems of industrial building main frames.
9. Design of columns of main frames of factory buildings. Principles of plain and lattice columns design.
10. Base and anchorage systems of columns.
11. Space rigidity of an industrial building system. Cross-wind bracing, bracing of the building with all-stocketed columns.
12. Structure of external and interior walls of an industrial building, design of window and gate lintels.
13. Technology of manufacturing and realization of steel structures. Assembly of steel structures, maintenance, rebuilding and stiffening of steel structures.

Učební cíle

The objective of the subject is to introduce students to the problems of this course and to practise acquires knowledge and skills.

Vymezení kontrolované výuky a způsob jejího provádění a formy nahrazování zameškané výuky

Vymezení kontrolované výuky a způsob jejího provádění stanoví každoročně aktualizovaná vyhláška garanta předmětu.

Základní literatura

Balio, G., Mazzolani, F.M.: Design of Steel Structures. E&FN Spon 1999
Ferjenčík, P., Schun, J., Melcher, J. a kol.: Navrhovanie ocelových konštrukcií, 1. časť, 2. časť. ALFA Bratislava - SNTL Praha 1986
Salmon, C.G., Johnson, J.E.: Steel Structures: Design and Behavior. Addison-Wesley Pub Co 1997
Studnička, J.: Ocelové konstrukce. ČVUT v Praze 2002

Doporučená literatura

SCI-The Steel Construction Institute, Ascot, U.K.: ESDEP-European Steel Design Education Programme, CD ROM. ESDEP Society 2000

Typ (způsob) výuky

 

Přednáška

26 hod., nepovinná

Vyučující / Lektor

prof. Ing. Jindřich Melcher, DrSc.

Osnova

1. Disposition arrangement and loading. 2. Design of industrial building structures. Composition of roof construction (roof cladding, spars) 3. Simple plate and latticed purlins; jointed, continuous, truss and suspended purlins. 4. Plate and latticed roof girders, roof bracings. 5. Bearings and additional roof structures. 6. Crane runway system in industrial buildings. Crane runways for bridge cranes: loading, rails, a main girder of a crane runway. 7. Design and constructional design of a main girder and a horizontal stiffening girder of a crane runway. Principle of a transmission of a brake force of bridge cranes to the foundations. 8. Systems of industrial building main frames. 9. Design of columns of main frames of factory buildings. Principles of plain and lattice columns design. 10. Base and anchorage systems of columns. 11. Space rigidity of an industrial building system. Cross-wind bracing, bracing of the building with all-stocketed columns. 12. Structure of external and interior walls of an industrial building, design of window and gate lintels. 13. Technology of manufacturing and realization of steel structures. Assembly of steel structures, maintenance, rebuilding and stiffening of steel structures.

Cvičení

26 hod., povinná

Vyučující / Lektor

prof. Ing. Jindřich Melcher, DrSc.