Fire desgn og concrete and mnsory structures

Lecturer:

Jaroslav Procházka, Radek Štefan

Tutor:

Jaroslav Procházka, Josef Sura, Radek Štefan

Supervisor:

Department of Concrete and Masonry Structures

Synopsis:

Fire design of concrete structures. Nominal and parametric fire exposures. Verification methods of fire resistance. Mechanical, thermal and physical properties of concrete and steel at elevated temperatures. Design procedures: tabulated data or testing, simplified calculation methods, advanced calculation methods. Shear torsion and anchorage of reinforcement. Spalling of concrete. Addition rules for high strength concrete. Calculation of fire design of concrete and masonry structures.

Requirements:

Before taking the examination following this course, it is required to have passed courses 133BEK2 a 133BEK3.

Syllabus of lectures:

1) Behavior of concrete and masonry structures at fire. Nominal and parametric fire exposures.

2) Verification methods of fire resistance. Mechanical, thermal and physical properties of concrete, steel and masonry at elevated temperatures.

3) Design methods for fire design of concrete structures - overview, principles and binding limits for use.

4) Design methods for fire design of concrete structures - design using tables or testing.

5) Simplified and advanced calculation methods. Effects of fire on elements and structures by using high strength concrete - addition rules for design.

6) Evaluation of fire resistance of masonry structures. Properties of masonry at elevated temperatures.

7) Design methods of fire resistance of masonry walls and columns.

Syllabus of tutorials:

1) Calculation of actions and member analysis of concrete elements at fire.

2) Calculation of temperature at heated concrete members.

3) Slab, beam and column - evaluation of fire resistance using tables.

4) Slender columns - evaluation of fire resistance using tables.

5) Slab, beam - evaluation of fire resistance using 500°C isotherm method.

Concrete wall - evaluation of fire resistance using zone method.

6) Masonry wall - evaluation of fire resistance.

7) Masonry column - evaluation of fire resistance.

Study Objective:

Make acquitance with fire design of concrete structures. Nominal and parametric fire exposures. Verification methods of fire resistance. Mechanical, thermal and physical properties of concrete and steel at elevated temperatures. Design procedures: tabulated data or testing, simplified calculation methods, advanced calculation methods. Shear torsion and anchorage of reinforcement. Spalling of concrete. Addition rules for high strength concrete. Calculation of fire design of concrete and masonry structures.

Study materials:

J. Procházka and others: Design of concrete structures 1, 3. issue, ČBS Praha ISBN 978-80-903807-8

F. Wald and others: Calculation of fire resistance of building structures, ČVUT Praha, ISBN 80-01-03157-8

Note:

Time-table for winter semester 2011/2012:

Time-table is not available yet

Time-table for summer semester 2011/2012:

	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
Fri
Thu
Fri	roomTH:B-785 Štefan R. Sura J. 08:00–09:50 ODD WEEK (lecture parallel1 parallel nr.101) Thákurova 7 (FSv-budova A) B785roomTH:C-204 Procházka J. Štefan R. 10:00–11:50 EVEN WEEK (lecture parallel1) Thákurova 7 (FSv-budova A) C204roomTH:B-785 Štefan R. Sura J. 12:00–13:50 ODD WEEK (lecture parallel1 parallel nr.103) Thákurova 7 (FSv-budova A) B785 roomTH:B-785 Štefan R. Sura J. 08:00–09:50 EVEN WEEK (lecture parallel1 parallel nr.102) Thákurova 7 (FSv-budova A) B785

The course is a part of the following study plans: