Course detail

Concrete Technology 2

FAST-BJA021Acad. year: 2022/2023

Principles and organization of European and domestic standardization of concrete and the connected laws. High-strength concrete, recycling in road construction, gunite, architectural coloured concrete, classification of aggressive media, proposal of compositions and marking of concrete for these surroundings following the ČSN EN 206, recycled concrete. Vibrated and pressed concrete and fine-grained composites. Rheology of fresh concrete, modeling, rheometry, proposal of testing and utilization of self-compacting concrete. Reshaping and shrinkage of hardened concrete. Porous structure of hardened concrete. Manufacturing technology of porous and lightweight concrete and of dense concrete as protection against radioactive radiation. Processing of secondary raw materials for the preparation of special concrete, utilization of fly ash, slag and dust. Proposal of the concrete composition with respect to the durability against the effects of water, frost and chemical defrosting salts and aggressive liquid and gaseous media.
Lectures are supplemented by laboratory assignments in the course.

Language of instruction

Czech

Number of ECTS credits

5

Mode of study

Not applicable.

Department

Institute of Technology of Building Materials and Components (THD)

Learning outcomes of the course unit

The student would manage the goal of the subject by broadening the knowledge to new concrete types and their design methods, testing and application conditions, further to modern trends in concrete technology and also on concrete with special properties such as e.g. high-quality, high strength, self-compressing, light, heavy concrete and further concretes with increased endurance against aggressive surrounding.

Prerequisites

Concrete technology I

Co-requisites

Not applicable.

Planned learning activities and teaching methods

Not applicable.

Assesment methods and criteria linked to learning outcomes

Not applicable.

Course curriculum

1. Principles and organisation of European and domestic standardization of concrete and of connected laws.
2. Classification of aggressive media. Proposal of composition and marking of concrete according to the Standard ČSN EN 206-1.
3. Porous structure of hardened concrete. Deformation and shrinkage of hardened concrete.
4. Processing of secondary raw materials for the manufacture of special concrete, utilization of fly ashes and slag and of flue dusts.
5. Concrete for hydraulic engineering constructions.
6. Rheology of fresh concrete. Rheological properties of fine-grained cement matrix. Rheometry.
7. Self compacting concrete. High-strength concrete.
8. Road concrete. Porous concrete. Fine-grained concrete.
9. Recycled concrete. Dense concrete.
10. Fibres containing concrete.
11. Soffit concrete. Architectural concrete. Concrete with heat-insulating properties. Polystyrene-concrete. Foam-concrete.

Work placements

Not applicable.

Aims

Following the knowledge obtained in the course Concrete Technology I, the knowledge is extended by information about new concrete types and the methods of their design, testing and conditions of use. The aim is to inform the students about up-to-date trends in concrete technology and about concrete with special properties such as high performance, high strength, self - compacting, light and dense concrete and further about concrete with increased resistance against aggressive media.

Specification of controlled education, way of implementation and compensation for absences

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Recommended optional programme components

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

HELA Rudolf, Technologie betonu I, VUT Brno 2007 (CS)
Hela Rudolf: Technologie betonu II, CERM VUT Brno, 2007 (CS)

Recommended reading

 De SCHUTTER Geert,BARTOS Peter,GIBS John: Self-Compacting Concrete, Whittles Publishing UK, ISBN 978-1904445-30-2 (EN)
FIGUŠ Viliam: Lahčené betony,  AV Bratislav 1963 (SK)
HELA Rudolf, De SCHUTTER Geert,BARTOS Peter,GIBS John: Samozhutnitelný beton, ČBS Praha, 2008, ISBN 978-80-87158-12-8 (CS)
HELA Rudolf: Technologie betonu I, CERM VUT Brno, 2007 (CS)
Kolektiv: Liapor, vlastnosti a aplikace,  Lias Vintířov 2001 (CS)
KOSMATKA Steven, WILSON Michelle. Design and Control of Concretet Mixture, PCA Washington 2011, ISBN 978-0-89312-272-0 (EN)
MARKO Ladislav: Architektonický betó:n, Alfa Bratislava 1989, ISBN 80-05-00137-1 (SK)
MATOUŠEK Milan, DROCHYTKA,Rostislav: Atmosferická koroze betonů, ČKAIT Praha, 1998, ISBN 80-902558-0-9 (CS)

Classification of course in study plans

  • Programme BPC-SI Bachelor's

    specialization M , 4 year of study, summer semester, compulsory

Type of course unit

 

Lecture

26 hod., optionally

Teacher / Lecturer

Syllabus

1. Principles and organisation of European and domestic standardization of concrete and of connected laws. 2. Classification of aggressive media. Proposal of composition and marking of concrete according to the Standard ČSN EN 206-1. 3. Porous structure of hardened concrete. Deformation and shrinkage of hardened concrete. 4. Processing of secondary raw materials for the manufacture of special concrete, utilization of fly ashes and slag and of flue dusts. 5. Concrete for hydraulic engineering constructions. 6. Rheology of fresh concrete. Rheological properties of fine-grained cement matrix. Rheometry. 7. Self compacting concrete. High-strength concrete. 8. Road concrete. Porous concrete. Fine-grained concrete. 9. Recycled concrete. Dense concrete. 10. Fibres containing concrete. 11. Soffit concrete. Architectural concrete. Concrete with heat-insulating properties. Polystyrene-concrete. Foam-concrete.

Exercise

26 hod., compulsory

Teacher / Lecturer

Syllabus

1. Influence of different types of plasticizers on the properties of fresh and hardened concrete. The proposed composition concrete strength class C 25/30, the test Slumps for determining the consistency of fresh concrete. Production of test specimens (cubes 150 mm) to determine the density and strength of concrete at 28 d of age. Influence of water-cement ratio on the consistency of fresh concrete and concrete compressive strength. Design of concrete composition with two types of plasticizers for the production of fresh concrete with a Slump consistency S3. Production of test specimens (cubes 150 mm) to determine the density and strength of concrete after 28 days. 2. SCC Self Compacting Concrete. The theoretical nature of all types of testing methods to verify the workability of fresh concrete and practical testing in laboratories. Mixing the concrete composition according to prescribed tests and settlement Slumps flow test, L-box, V-funnel test, Orimet + J ring test. The proposed composition SCC on the specified value Slump flow 750 mm. Use of additives and effective plasticizers for concrete. Visual assessment and determining the consistency of fresh concrete. Production of test specimens for determining the compressive strength at the age of 7 and 28 days. Determination of physical or mechanical properties of specimens previous exercises. 3. SCRFCC Self Compacting Concrete with reinforcement. Design of concrete composition using two types of dispersed reinforcement (polypropylene fibers and steel fibers). Assessment of Slump flow test and L-box on the fresh concrete. Production of test specimens to determine the compressive strength and flexural strength. Determination of physical or mechanical properties of specimens from the previous exercise. 4. LWSCC Light Weight Self Compacting Concrete. Production of Self Compacting Concrete using lightweight aggregate Liapor in two fractions 0-1 and 0-4 mm. Execution of test-spill settlement and L-box on the fresh concrete. Production of test specimens to determine the compressive strength. 5. ULWSCC Ultra Light Weight Self Compacting Concrete. Production SCC using a foaming additive for the reduction of density of the concrete. Influence of additives on the density of fresh concrete, manufacture of test specimens for the determination of density and compressive strength after 7 days of curing. Determination of physical or mechanical properties of specimens from the previous exercise. 6. HSC High Strength Concrete. Based on the theoretical design of concrete composition using aggregates of higher density to obtain a compressive strength of more than 60 MPa. Determination of consistence of fresh concrete and manufacture of test specimens to determine the compressive strength. 7. Architectural concrete. Presentation of the most interesting buildings of modern architecture using modern types of concrete and their application in modern design (furniture, sculpture, jewelery, etc.). The creative activity of students in laboratories, manufacture of articles based on your own design using various techniques of production. 8. KSC concrete. The use of aggregate cements bonded to the underlying layer traffic engineering. The following three types of KSC mixtures and perform basic tests Proctor Standard. Based on the test determining the optimum moisture mixture. 9. Determination of physical or mechanical properties of specimens from the previous exercise. 10. Excursion. 11. Credit test, inspection reports, attendance, and the credit if you meet all the requirements.