Course detail
Building Structures III.
FAST-AO01Acad. year: 2013/2014
Space design and loading actions of constructions with metal structure.
Design of hall structures: Roof structures (roof cladding, purlins, roof main girders, roof bracings). Primary and secondary system of load-bearing structure. Design of columns, fastening of columns. Space rigidity of hall system. Claddings.
Design and structural principles of multi-storey buildings: Space rigidity, bracings. Floor structures. Columns, column bases, fastening of columns.
Long-span roof systems (spatial structural systems, suspended and cable-stayed structures: Basic principles of structural design.
Production and errection, reconstruction and regeneration of steel structures.
Masonry structures and their types. Masonry properties. Design principles according limit states.
Structural design of masonry buildings and principles of their static design. Reinforced masonry, advanced masonry structures.
Basic tapes of prefabricated concrete structures, their static behaviour and structural design.
Selected concrete structures - retaining walls, subterraneous walls.
Prestressed concrete structures - basis of prestressed concrete, advantages, types.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Department
Learning outcomes of the course unit
Prerequisites
Co-requisites
Planned learning activities and teaching methods
Assesment methods and criteria linked to learning outcomes
Course curriculum
2. Hall structures: secondary systems, columns, fastening.
3. Hall structures: Spacing rigidity, structures for claddings.
4. Structural systems of multi-storey buildings with steel or steel-concrete structure. Spacing rigidity, bracings.
5. Floor structures of multi-storey buildings. Columns and fastening.
6.-7. Long-span roof systems: Basic principles of structural design (spatial systems, suspended and cable-stayed structures). Production and errection of steel structures, reconstruction and regeneration of steel structures.
8. Masonry structures, their types. Masonry properties. Principles of design according limit states.
9. Structural design of masonry buildings and principles of their static design.
10. Reinforced masonry, advanced masonry structures.
11. Assembled (prefabricated) concrete structures - basic tapes of structures and their static behaviour.
12. Assembled (prefabricated) concrete structures - types of members, structural design, details, spacing rigidity.
13. Prestressed concrete structures - basis of prestressed concrete, advances, types.
Work placements
Aims
Specification of controlled education, way of implementation and compensation for absences
Recommended optional programme components
Prerequisites and corequisites
Basic literature
Hendry, A.W.: Structural Masonry. McMillan, London, 1987. (EN)
Jílek, A., Grenčík, L., Novák, V.: Betonové konstrukce pozemních staveb, díl IIA. ANTL ALFA Praha, 1984. (CS)
Marek, P. a kol: Kovové konstrukce pozemních staveb. SNTL Praha, 1985. (CS)
Studnička, J.: Ocelové konstrukce I.. ČVUT Praha, 1998. (CS)
Recommended reading
Bažant, Z., Klusáček, L., Meloun, V.: Betonové konstrukce IV. Montované konstrukce pozemních staveb. VUT Brno, 2003. (CS)
Lorenz, K.: Zděné konstrukce. ČVUT Praha, 1996. (CS)
SCI-The Steel Construction Institute, Ascot, U.K.: ESDEP-European Steel Design Education Programme, CD ROM. ESDEP Society, 2000. (EN)
Classification of course in study plans
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
2. Hall structures: secondary systems, columns, fastening.
3. Hall structures: Spacing rigidity, structures for claddings.
4. Structural systems of multi-storey buildings with steel or steel-concrete structure. Spacing rigidity, bracings.
5. Floor structures of multi-storey buildings. Columns and fastening.
6.-7. Long-span roof systems: Basic principles of structural design (spatial systems, suspended and cable-stayed structures). Production and errection of steel structures, reconstruction and regeneration of steel structures.
8. Masonry structures, their types. Masonry properties. Principles of design according limit states.
9. Structural design of masonry buildings and principles of their static design.
10. Reinforced masonry, advanced masonry structures.
11. Assembled (prefabricated) concrete structures - basic tapes of structures and their static behaviour.
12. Assembled (prefabricated) concrete structures - types of members, structural design, details, spacing rigidity.
13. Prestressed concrete structures - basis of prestressed concrete, advantages, types.
Exercise
Teacher / Lecturer
Syllabus
4.-5. Structural systems of multi-storey buildings with steel or steel-concrete structure: ceiling and floor structures, columns and fastening, bracings.
6. Long-span roof systems: basic principles of composition and structural detailing - spatial member systems, truss grids, spatial grids, suspended and cable-stayed structures.
7. Production, manufacture and errection of steel structures, basic types of reconstructions and strengthening of steel structures.
8.-10: Masonry structures: their types and importance, masonry properties, principles of design based on limit states, structural detailing of masonry buildings and principles of their static design, reinforced masonry, filling of skeleton structures, advanced masonry structures.
11.-12. Assembled (prefabricated) concrete structures: basic types of structures and their static behaviour, member types, composition, structural detailing, spacing rigidity.
13. Prestressed concrete structures: basis of prestressed concrete, its advantages and types.