Description:

The subject is focused on the complex design of load-bearing structures of roofs, large-span structures and structures of multi-storey buildings. In the first part, the attention is focused on span structures of pitched roofs and hall buildings and on the supporting structures of multi-storey buildings. In the second part, students will learn about the design of prefabricated indoor and multi-storey structures.

Contents:

1. Supporting structures of pitched roofs
2. Boundary conditions and optimization of hall building design
3. Truss and frame structures of large-span buildings.
4. Curved, suspended and suspended structures of large-span buildings.
5. Spatially acting planar and structural structures of large-span buildings.
6. Rope nets and tensegrites. Membrane structures.
7. Load-bearing structures of multi-storey buildings.
8. Stability and spatial rigidity of multi-storey buildings.
9. Design of precast reinforced concrete systems.
10. Design of pillar, wall and integrated multi-storey systems.
11. Design of pillar, wall and integrated multi-storey systems.
12. Design of pillar, wall and integrated multi-storey systems.
13. Design of pillar, wall and integrated multi-storey systems.

Seminar contents:

1. Conceptual design of the support structure of the sloping roof.
2.
3. Analysis of the structural-static effect and design of the details of the pitched roof structure.
4.
5. Conceptual design of the supporting structure of the hall building.
6.
7. Analysis of the structural-static effect and design of details of the structure of the hall building.
8.
9. Conceptual design of the supporting structure of a multi-storey building.
10.
11. Analysis of the structural-static effect and design of the details of the construction of a multi-storey building.
12.
13. Reserve

Recommended literature:

Wilden H. a kol.: Precast and prestressed concrete, PCI 1992. ISBN-10: 0937040878

Schodek D., Bechthold M.: Structures. ISBN-10: 8120348699

Bill Z., Brabec V., Hruška A., Žďára V.: KPS 50 - Konstrukčně statická analýza vícepodlažních a halových objektů, ČVUT, Praha 1998

Z. Bill, V. Ždára: Zastřešení budov, TK 6 CKAIT. CSSI Praha 1998

Gattermayerová H.: KPS 50 - Konstrukce vícepodlažních budov - příklady, ČVUT, Praha 1996

Hanaor A.: Priciples of structures, Blackwell Science, 1998

Schodek L.: Structures. Pearson Education, 2004

Herzog, Natterer, Schweitzer,Volz,: Timber Construction Manual. Birkhauser Detail Basel 2004

Schulitz, Sobek, Habermann: Steel construction manual. Birkhauser Detail Basel 2000

Kind-Barkauskas, Kauhsen, Polonyi, Brandt : Concrete Construction Manual, Detail Basel 2002

Keywords:

plane and space structures, pitched roofs, large-span constructions, beams, frames, arches, suspended structures, pneumatic constructions, structural design, grids and two-way tensioned structures, vaults, shells, membranes, tensegrities,

Abbreviations used:

Semester:

• W ... winter semester (usually October - February)
• S ... spring semester (usually March - June)
• W,S ... both semesters

Mode of completion of the course:

• A ... Assessment (no grade is given to this course but credits are awarded. You will receive only P (Passed) of F (Failed) and number of credits)
• GA ... Graded Assessment (a grade is awarded for this course)
• EX ... Examination (a grade is awarded for this course)
• A, EX ... Examination (the award of Assessment is a precondition for taking the Examination in the given subject, a grade is awarded for this course)

Weekly load (hours per week):

• P ... lecture
• C ... seminar
• L ... laboratory
• R ... proseminar
• S ... seminar