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Composite Structures

Course developer

Course abstract

Subject discusses the composite slabs, beams and columns according to Eurocode 4. Advantages, planning and erection of composite structures are given. The main equations for verification of bearing capacity taking into account specific reinforcement and amount of shear connectors are shown. Main types of composite columns. Simplified method of design of concrete filled circular hollow section column. MS Excel, AutoCAD, MathCAD programmes are used preparing for further work with BIM software.

Learning outcomes and their assessment

Knowledges about designing of composite slabs, beams and columns according to requirements of EC4; skills to use the technical literature and algorithms for various problem solving; competences to define the task, to choose the method of calculation and evaluate the acquired results. Assessment is carried on the basis of indiviual work presentation and competent conversation about theme.

Course Content(Calendar)

1. Types of composite structures, assemblage, connections 1h.
2. Materials for composite structures – concrete, rainforcement, structural steel, steel sheets 1h.
3. Main principles of designing of composite beams 1h.
4. Verification of bearing capacity of composite beams 2h.
5., 6. Assessing of resistance of cross section in area of positive and negative moments 2h.
7. Resistance to moment and shear interaction 2h.
8. Resistance of shear connectors 2h.
9. Determination of longitudinal shear forces 1h.
10. Assessing of composite beam deflections 1h.
11. Principles of composite slab designing 3h.
12. Components of composite columns. Advantages and disadvantages of composite columns 1h.
13. Resistance to axial forces 1h.
14. Resistance to bending moments 2h.
15. Resistance to interaction of stresses. Stability of composite columns 2h.
16. Using of tables and diagrams in designing of composite clumns 1h.

Requirements for awarding credit points

Credit points are awarded if individual work is presented and conversation is successful.

Description of the organization and tasks of students’ independent work

Individual task is given after lectures. Individual job is performed independently with regular consultations.

Criteria for Evaluating Learning Outcomes

Attendance at lectures and practical lessons. Assessment of individual work and conversation about research results.

Compulsory reading

1. Brauns J. Tērauda un tēraudbetona konstrukcijas. Eirokodeksi EC3 un EC4 konstrukciju projektēšanā. Jelgava: LLU, 2004. 85 lpp.
2. Designers guide to EN 1994-1-1. Eurocode 4: Design of composite steel and concrete structures. Part 1.1. General rules and rules for buildings. Thomas Telford publishing, 2004.- 235 p.
3. Металлические конструкции. Общий курс / Под ред. Е. И. Беленя. Москва: Стройиздат, 1986. 559 c.
4. Kreilis J. Plānsieniņu tērauda konstruktīvo elementu aprēķins. Jelgava: LLU, 2013. 77 lpp.

Further reading

1. Kreilis J Tērauda konstrukcijas. Ievads projektēšanā saskaņā ar LVS EN 1993-1-1. Vienstāva karkasa ēku konstruktīvie risinājumi un aprēķins. Jelgava: LLU, 2007. 142 lpp.
2. Sendvičpaneļi Tenax. U.Iljins, J.Skujāns u.c.. Jelgava: LLU, 2004. 121 lpp.

Periodicals and other sources

1. Steel and Composite Structures. TechnoPress. ISSN 1229-9367
2. Engineering Structures. [tiešsaiste]. Elsevier. ISSN 0141-0296. [skatīts 28.05.2015.]. Pieejams ScienceDirect datubāzē: http://www.sciencedirect.com/science/journal/01410296
3. Mechanics of composite materials. ISSN 0203-1272

Notes

Compulsory Course in research direction for the Professional Master's study programme “Civil Engineering”