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CZECH TECHNICAL UNIVERSITY IN PRAGUE
STUDY PLANS
2023/2024
UPOZORNĚNÍ: Jsou dostupné studijní plány pro následující akademický rok.

Building Structures 3Q

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Code Completion Credits Range Language
124PS3Q Z,ZK 3 2P+1C Czech

The course 124PS3Q can be graded only after the course 124PSI2 has been successfully completed.

The course 124PR1Q can be graded only after the course 124PS3Q has been successfully completed.

Garant předmětu:
Hana Gattermayerová, Vladimír Žďára
Lecturer:
Hana Gattermayerová, Vladimír Žďára
Tutor:
Ctislav Fiala, Hana Gattermayerová, Tomáš Vlach, Vladimír Žďára
Supervisor:
Department of Architectural Engineering
Synopsis:

The subject deals with the complex design of load-bearing structures of roofing, indoor and multi-storey buildings and the structural-static effect of the perimeter roof shell. In the first part, the attention is focused on span structures of sloping roofs and hall buildings and on structural-static problems of multi-storey buildings. In the second part, students will learn about the design of prefabricated indoor and multi-storey structures.

Requirements:

-

Syllabus of lectures:

1. Construction of pitched roofs - rafter and truss systems

2. Construction of pitched roofs - purlin systems

3. Construction of indoor buildings - systems with mainly bent

4. Construction of indoor facilities - mainly pressured systems

5. Construction of indoor facilities - mainly towed systems

6. Construction of indoor facilities - systems with spatial effects

7. Construction of indoor buildings - prestressed structures and active shaping of structures, inverse construction

8. Construction of multi-story buildings. Requirements for the load-bearing structure of multi-story buildings. Inspiration and history of design of multi-story buildings, tallest skyscrapers.

Basic static systems. Computational models. Construction x layout

9. Construction of multi-storey buildings. Stability of structures. Transverse stiffness. Stabilizing elements. Stiffness of ceiling slab and walls. Horizontal load distribution. Shear stiffness, ductility. Examples, computational models

10. Prefabricated construction - multi-storey. Prefabrication of the 20th century - transverse support systems, overview of building systems. Prerequisites for the operation of the load-bearing structure and the conditions of the computational solution. Vertical and horizontal connections, formulas, mechanisms of action, examples. The interaction of ceiling panels.

11. Prefabricated construction - indoor and skeleton. Prefabrication of the 20th century, an overview of typical solutions. Basic static diagrams, production and assembly status of the structure. Principles of relationships.

12. Prefabricated construction. Current trends in prefabrication. Structural and legal aspects of additional interventions in the existing load-bearing structures of apartment block houses.

13. Rezerva

Syllabus of tutorials:

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.

Study Objective:

To learn to apply theoretical knowledge from previous subjects in the design of load-bearing, envelope and dividing structures of roofing, hall and multi-storey buildings. Understand the structural-static requirements placed on these structures. Understand the principles of static action and the design of the structures mentioned.

Study materials:

Bill Z., Brabec V., Hruška A., Žďára V.: KPS 50 - Konstrukčně statická analýza vícepodlažních a halových objektů, ČVUT, Praha 1998. ISBN 80-01-01754-0

Witzany, J.; Pašek, J.; Čejka, T.; Zigler, R. Konstrukce pozemních staveb 70 - Prefabrikované konstrukční systémy a části staveb, ČVUT Praha, 2003. ISBN 80-01-02656-6

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"

Note:
Further information:
N/A
Time-table for winter semester 2023/2024:
06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon
Tue
roomTH:A-333

08:00–09:50
ODD WEEK

(lecture parallel1
parallel nr.101)

Thákurova 7 (budova FSv)
A333
roomTH:A-333

08:00–09:50
EVEN WEEK

(lecture parallel1
parallel nr.102)

Thákurova 7 (budova FSv)
A333
Wed
Thu
roomTH:C-219

18:00–19:50
(lecture parallel1)
Thákurova 7 (budova FSv)
C219
Fri
Time-table for summer semester 2023/2024:
Time-table is not available yet
The course is a part of the following study plans:
Data valid to 2024-05-18
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