Course detail
Concrete structures
ÚSI-2BCBKAcad. year: 2016/2017
The course is devoted to problems of modern methods of design, assessment and verification of load-bearing behaviour of concrete structures. It is based on the knowledge of basic "dimensioning" approaches for design of concrete structures according to the ultimate limit state (using partial safety factors) and it develops these skills in modelling and verification, and increases the relevancy models using Monte Carlo methods, optimization methods and artificial intelligence methods. It deals with the principles of technical risks of concrete structures, their preventive treatment and management.
Language of instruction
Number of ECTS credits
Mode of study
Department
Learning outcomes of the course unit
Prerequisites
Co-requisites
Planned learning activities and teaching methods
Assesment methods and criteria linked to learning outcomes
The test will consist of written and oral part. The condition of the oral part is meeting conditions of the written part.
Course curriculum
2. Environmental aspects of design in relation to the concrete structures and sustainable development, the associated risks.
3. Mathematical and expert methods, determination of the probability of failure of concrete structures.
4. Degree of reliability and failure risk estimation in the Czech and European regulations for the design of concrete structures.
5. Standards related to risk (forming and the occurrence of faults) of concrete structures. Danger and risk. The precautionary principle. Expert methods.
6. People and actions averse and reverse to the risk of faults of concrete structures. Decisions on risk. Numerical expressions of risk.
7. Design assessment methodology in terms of their life cycle (life time assessment), the type of assessment methodologies life time cost.
8. Examples for different types of dimensioning of simple tasks - the ultimate limit state and serviceability.
9. Reliability of structures and systems making models for simple structures.
10. Examples of application of reliability analysis structure (system) for supporting structures of the monolithic skeleton single or multi-storey buildings.
11. Defects and failures - concrete slab construction, slatted and lacunar ceilings, retaining walls.
12. Defects and failure - concrete structure in water management.
13. Defects and failures, strengthening and rehabilitation. Optimization of the design.
Work placements
Aims
Specification of controlled education, way of implementation and compensation for absences
Recommended optional programme components
Prerequisites and corequisites
Basic literature
EUROCODE 2. Design of Concrete Structures. European Committee for Standardization, 2004, je i češtině
GHALI, A., FAVRE, R., ELBADRY, M.: Concrete Structures: Stresses and Deformations. Spon Press, London, 2002
HAIMES, Y. Y.: Risk modeling, assessment and management. John Wiley and sons, 2004, ISBN 0-471-48048
internetové studijní opory FAST VUT v Brně pro předměty BL01, BL05, BL09
NILSON, A. H., DARWIN, D., DOLAN, CH. W.: Design of Concrete Structures. McGraf-Hill, New York, 2004
TICHÝ, M.: Ovládání rizika. Ch. Beck, Praha 2006, ISBN 80-7179-415-5
Recommended reading
MACGREGOR, J. G., WIGHT, J. G..: Reinforced Concrete: Mechanics and Design. Prentice Hall, New Persey, 2004
TIJMS, H. C.: A first course in Stochastic Models. John Wiley and sons, 2003, ISBN 0-471-49881-5
Classification of course in study plans
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
2. Environmentální aspekty navrhování ve vztahu k betonovým konstrukcím a trvale udržitelnému rozvoji, související rizika
3. Matematické a expertní metody, stanovení pravděpodobnosti vzniku poruchy betonové konstrukce.
4. Míra spolehlivosti a odhadování rizika poruch v českých a evropských předpisech pro navrhování betonových konstrukcí.
5. Normy související s rizikem (vzniku a výskytu poruch) bet. konstrukcí. Nebezpečí a riziko. Princip předběžné opatrnosti. Expertní metody.
6. Osoby a děje averzní a reverzní k riziku poruch bet. konstrukcí. Rozhodování o riziku. Numerické vyjádření rizika.
7. Metodika hodnocení konstr. z hlediska jejich živ. cyklu (life time assessment), met. posuzování typu life time cost
8. Příklady pro jednotlivé typy jednoduchých dimenzačních úloh – mezní stav únosnosti a použitelnosti
9. Spolehlivost konstrukcí a systémů, tvorba modelů pro jednoduché konstrukce
10. Příklady aplikace spolehlivostní analýzy konstrukce (systému) pro nosné konstrukce monolitických skeletových jedno a vícepodlažních budov.
11. Vady a poruchy - betonové deskové konstrukce , roštové a kazetové stropy, opěrné zdi
12. Vady a poruchy - betonové konstrukce ve vodním hospodářství
13. Vady a poruchy, zesilování a sanace. Optimalizace návrhu konstrukce
Exercise
Teacher / Lecturer
Syllabus