Course code BūvZ2049
Credit points 3
Total Hours in Course81
Independent study hours81
Date of course confirmation15.04.2014
Responsible UnitInstitute of Civil Engineering and Wood Processing
Mg. sc. ing.
BūvZ2042, Structural Mechanics I
BūvZ2043, Structural Mechanics II
BūvZ2045, Building Structures II-1 (Concrete)
BūvZ3094, Structural Mechanics III
In this study course students will gain practical knowledge about design of reinforced concrete construction. Students will improve their skills in reinforcement calculation, presenting the results in the project drawings, application of rules for detailing and durability.
Knowledge: Studens will be able to determinate first skeches for reinforced concre structure elements and will be able no notice areas were need to integrate reinforcement – defence of the course project.
Skill: Students will gain skills to use section analysis and structural analysis in the design of reinforced concrete structures – defence of the course project.
Competence: Students will gain skills to present their design result in drawings and defend them orally – defence of the course project.
1 Predesign of the assigned building’s main structures.
2 Loads and load combinations.
3 Internal forces for slabs, beams, columns.
4 Design of ceiling slab.
5 Design of beams.
6 Design of a column or a wall.
7 Design of column and wall footings.
8 Detailing rules.
9 Drawings.
10 Defence of the course project.
The course is passed when the course project is prepared and successfully defended.
Course project must be prepared independently outside the classes of this course. The progress of the design process must be presented during consultation regularly.
Students get an individual task for course project including initial data for design
The grade depends on the quality of Course project and the level of knowledge presented during the defence. In addition the discipline of the student is taken into account. The maximum grade is possible only for those who present the progress of their work on regular bases (every week) during the whole semester. If the work is first presented fully finished only at end of the semester, the maximum grade is 8.
Students can increase their grades by 1 or 2 points (up to 9 or 10) by submitting some extra calculations or drawings.
1. LVS EN 1992-1-1:2005. 2. Eirokodekss: Betona konstrukciju projektēšana. 1-1. daļa: Vispārīgie noteikumi un noteikumi ēkām. Rīga: LVS, 2005. 225 lpp.
2. Brauns J. Stiegrota betona konstrukcijas: Eirokodekss EC2 konstrukciju projektēšanā, Jelgava: LLU, 2007. 173 lpp.
3. O'Brien E., Dixon A., Sheils E. Reinforced and Prestressed Concrete Design to EC2: the complete process, London: Spon Press, 2012. 524 p.
4. Brauns J. Monolītā betona konstrukcijas: Projektēšana saskaņā ar EC2, Jelgava: LLU, 2010. 72 lpp.
1. Попов Н.Н., Забегаев А.В. Проектирование и расчет желeзобетонных и каменных конструкций. Москва: Высшая школа, 1989. 399 c.
2. Мандриков А.П. Примеры расчета железобетонных конструкций. Москва: Стройиздат, 1989. 506 c.
3. Reynolds C.E., Steedman J.C. Reinforced Concrete Designer’s Handbook. London etc.: E. & F.N.Spon, 1997. 436 p.
1. Structural Concrete. Published by Thomas Telford. ISSN (printed): 1464-4177. ISSN (electronic): 1751-7648.
2. Steel and Composite Structures. TechnoPress. ISSN 1229-9367
3. Engineering Structures. Elsevier. ISSN 0141-0296.
Compulsory Course for the First level professional higher educational programme “Civil Engineering”