Course code BūvZ4109

Credit points 2

Reinforced Concrete and Masonry Structures III

Total Hours in Course80

Independent study hours80

Date of course confirmation17.02.2015

Responsible UnitDepartment of Structural Engineering

Course developer

author tēma PD6 - “Īsšķiedru cementa kompozītu izmantošanas efektivitāte nesošo sienu konstrukcijās” (Nr.

Ulvis Skadiņš

Dr. sc. ing.

Prior knowledge

BūvZ2040, Structural Analysis I

BūvZ2048, Basic Theory of Structures

BūvZ3078, Structural Analysis II

BūvZ4108, Reinforced Concrete and Masonry Structures I

Learning outcomes and their assessment

1. Students will gain skills to use the limit state design method, section analysis and structural analysis in the design of reinforced concrete structures – defence of the course project.
2. Students will gain skills to present their design result in drawings and defend them orally – defence of the course project.

Course Content(Calendar)

Week 1: Predesign of the assigned building’s main structures.
Week 2: Loads and load combinations.
Week 3: Internal forces in the sections of slabs, beams, columns.
Week 4 and 5: Design of floor slab.
Week 6 and 7: Design of beams.
Week 8: Design of a column or a wall.
Week 9 and 10: Design of column and wall footings.
Week 11: Detailing rules.
Week 12: Drawings.
Week 13: Defence of the course project.

Requirements for awarding credit points

The course is passed when the course project is prepared and successfully defended.

Description of the organization and tasks of students’ independent work

Course project must be prepared independently outside the classes of this course. The progress of the design process must be presented during consultation on regular bases.

Criteria for Evaluating Learning Outcomes

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 6. Students can increase their grades by 1 or 2 points (up to 9 or 10) by submitting some extra calculations or drawings.

Compulsory reading

1. LVS 1992-1-1. Betona konstrukciju projektēšana. 1–1.daļa: Vispārīgie noteikumi un noteikumi ēkām.
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 lpp.
4. Brauns J. Monolītā betona konstrukcijas. Projektēšana saskaņā ar EC2. Jelgava: LLU, 2010. 72 lpp.

Further reading

1. Попов Н.Н., Забегаев А.В. Проектирование и расчет железобетонных 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 Desiner’s Handbook. London etc.: E. & F.N.Spon, 1997. 436 p.

Periodicals and other sources

1. Structural Concrete. Journal of the fib, Thomas Telford Ltd. ISSN 1464-4177.
2. Steel and Composite Structures. TechnoPress. ISSN 1229-9367
3. Engineering Structures. Elsevier. ISSN 0141-0296.


Compulsory Course for the Professional Bachelor’s study programme “Civil Engineering”