Course Details
Special Concrete Structures (K)
Academic Year 2023/24
NLB036 course is part of 1 study plan
NPC-SIK Winter Semester 2nd year
Analysis of space structures. Prestressed concrete structures in the structural engineering. High-rise buildings. Slabs structures prestressed by bonded and unbonded cables.
Arch structures in the civil engineering. Arch bridge structures. Examples of arch structures. Domes and shells.
Suspension and cable-stayed systems. Cable-stayed structures. Suspension structures.
Stress-ribbon structures.
Arch structures in the civil engineering. Arch bridge structures. Examples of arch structures. Domes and shells.
Suspension and cable-stayed systems. Cable-stayed structures. Suspension structures.
Stress-ribbon structures.
Credits
6 credits
Language of instruction
Czech
Semester
winter
Course Guarantor
Institute
Forms and criteria of assessment
course-unit credit and examination
Entry Knowledge
structural mechanics, concrete structures, prestressed concrete, concrete bridges
Aims
To analyse selected special concrete structures, e.g. high-rise buildings, arches, shells, suspension and cable-stayed structures.
A student gains these knowledge and skills:
• The ability to analyse selected special concrete structures, e.g. high-rise buildings, arches, shells, suspension and cable-stayed structures.
A student gains these knowledge and skills:
• The ability to analyse selected special concrete structures, e.g. high-rise buildings, arches, shells, suspension and cable-stayed structures.
Basic Literature
RUHE, H. Priestorové strešné konštrukcie. . Bratislava: ALFA, 1979. (sk)
SALVADORI, Mario a HELLER, R. Konštrukcia v architekture. Bratislava: ALFA, 1971. (sk)
STRÁSKÝ, Jiří. Stress Ribbon and Cable-supported Pedestrian Bridges. London: Thomas Telford, 2005. ISBN 07277-3282-X. (en)
SALVADORI, Mario a HELLER, R. Konštrukcia v architekture. Bratislava: ALFA, 1971. (sk)
STRÁSKÝ, Jiří. Stress Ribbon and Cable-supported Pedestrian Bridges. London: Thomas Telford, 2005. ISBN 07277-3282-X. (en)
Recommended Reading
SALVADORI, Mario. Why Buildings Stand up: The Strength of Architecture. New York: WW Norton and Com., 2002. ISBN 0-393-30676-3. (en)
BRŰHWILER, Eugen a MENN, Christian. Stahlbetonbrücken. Wien, New York: Springer-Verlag, 2003. ISBN 3-211-83583-0 (de)
BILLINGTON, David. Thin Shell Concrete Structures. New York: McGraf-Hill Book Com., 1982. ISBN 0070052794. (en)
Elektronické studijní opory FAST VUT
Stráský Jiří. Konstrukční systémy a analýza lan. 28 stran, 2013; Stráský Jiří. Konstrukce tvořené předpjatým pásem a membránou. 88 stran, 2013; Stráský Jiří. Konstrukce podporované kabely. 64 stran, 2013 (cs)
BRŰHWILER, Eugen a MENN, Christian. Stahlbetonbrücken. Wien, New York: Springer-Verlag, 2003. ISBN 3-211-83583-0 (de)
BILLINGTON, David. Thin Shell Concrete Structures. New York: McGraf-Hill Book Com., 1982. ISBN 0070052794. (en)
Elektronické studijní opory FAST VUT
Stráský Jiří. Konstrukční systémy a analýza lan. 28 stran, 2013; Stráský Jiří. Konstrukce tvořené předpjatým pásem a membránou. 88 stran, 2013; Stráský Jiří. Konstrukce podporované kabely. 64 stran, 2013 (cs)
Syllabus
1. Analysis of space structures.
2. Prestressed concrete structures in the structural engineering.
3. High-rise buildings.
4. Slabs structures prestressed by bonded and unbonded cables.
5. Arch structures in the civil engineering. Arch bridge structures.
6. Domes.
7. Shells.
8. Suspension and cable-stayed systems. Cable-stayed structures.
9. Suspension structures.
10. Stress-ribbon structures.
2. Prestressed concrete structures in the structural engineering.
3. High-rise buildings.
4. Slabs structures prestressed by bonded and unbonded cables.
5. Arch structures in the civil engineering. Arch bridge structures.
6. Domes.
7. Shells.
8. Suspension and cable-stayed systems. Cable-stayed structures.
9. Suspension structures.
10. Stress-ribbon structures.
Prerequisites
structural mechanics, concrete structures, prestressed concrete, concrete bridges
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Analysis of space structures.
2. Prestressed concrete structures in the structural engineering.
3. High-rise buildings.
4. Slabs structures prestressed by bonded and unbonded cables.
5. Arch structures in the civil engineering. Arch bridge structures.
6. Domes.
7. Shells.
8. Suspension and cable-stayed systems. Cable-stayed structures.
9. Suspension structures.
10. Stress-ribbon structures.
2. Prestressed concrete structures in the structural engineering.
3. High-rise buildings.
4. Slabs structures prestressed by bonded and unbonded cables.
5. Arch structures in the civil engineering. Arch bridge structures.
6. Domes.
7. Shells.
8. Suspension and cable-stayed systems. Cable-stayed structures.
9. Suspension structures.
10. Stress-ribbon structures.
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Prestressed floor structure of storeyed garages: Design of dimensions and prestressing force, geometry, loading states.
2. Calculating model of a slab.
3.–4. Computational determination of internal forces together with graphical outputs.
5. Completion of structural solution and its control.
6. Dimensioning of a slab on bending strength.
7. Correction.
8. Dimensioning of a slab on bursting stress.
9. Drawings. Control of dimensioning.
10. Project submission. Credit.
2. Calculating model of a slab.
3.–4. Computational determination of internal forces together with graphical outputs.
5. Completion of structural solution and its control.
6. Dimensioning of a slab on bending strength.
7. Correction.
8. Dimensioning of a slab on bursting stress.
9. Drawings. Control of dimensioning.
10. Project submission. Credit.