Czech

Not applicable.

Institute of Metal and Timber Structures (KDK)

Composite steel-concrete bridges - detail static design and structural detailing. Box bridges - bases of static design and structural detailing. Bevelled and curved bridges - basic principles of static behaviour and structural detailing. Arch and frame bridges - principles of static design and structural detailing. Bridge supports - static and structural solution. Suspended and cable-stayed bridges - basic principles of static behaviour and structural detailing. Methods of metal bridges erection.

Design of members, components and connections of steel structures. Metal bridges - plated-girder and truss-girder bridges. Design of members and components of concrete structures. Static solution of truss structures and arches including influence lines. Basis of static solution of cable-stayed and suspended structures. Basis of structural dynamics.

Extension of the knowledge in the field of elasticity and plasticity - basic principles of non-linear analysis. Extension of the knowledge of structural dynamics with regards to the solution of the dynamic behaviour of steel bridges.

Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations.

For the successful graduation of this course it is necessary to static and structural design of steel truss-girder or arch bridge within the exercises, based on the individual task, with the extend given by the teacher. The attendance in the exercises is compulsory. The exam is realized by the written form and its extend follows the course annotation.

1. Box girder bridges - specific features of box girder bridges, principles of structure analysis, torsion of box girder bridges.
2. Composite steel-concrete bridges - girders with elastic action (principles of structure analysis and design).
3. Composite steel-concrete bridges - girders with plastic action (principles of structure analysis and design).
4. Composite steel-concrete bridges - shear connectors (types, structural design, principles of design).
5. Bevelled bridges - principles of structural configuration, principles of structure analysis.
6. Curved bridges - principles of structural configuration, principles of structure analysis.
7. Arched bridges - types of arched bridges, structural configuration, basic principles of structure analysis.
8. Arched bridges - structure analysis differences, frame bridges.
9. Suspended and cable-stayed bridges - principles of structural configuration, materials and solution of structural members.
10. Suspended and cable-stayed bridges - principles of structure analysis.
11. Steel and steel-concrete bridge supports - types, structural design and structure analysis.
12. Special kind of bridges - pre-loaded bridges, temporary bridges, movable bridges, pipeline bridges (basic information).
13. Production and assembly of steel bridge structures.

Not applicable.

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

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Not applicable.

Not applicable.

Faltus, F.: Ocelové mosty příhradové, obloukové a visuté. Academia Praha, 1971. (CS)
Pechar, J. - Bureš, J. - Schindler, A.: Kovové mosty. SNTL Alfa Praha, 1990. (CS)

Johnson, R.P., Buckby, R.J.: Composite Structures of Steel and Concrete-Vol. 2.: Bridges. COLLINS London, 1986. (EN)
Tomica, V. - Sokolík, A. - Zemko, Š.: Údržba a rekonštrukcia mostov. Alfa Bratislava, 1992. (SK)
SCI-The Steel Construction Institute: ESDEP-European Steel Design Education Programme. U.K., 2000. (EN)