Calculation and engineering of building structures

PART 1

Lectures 
Lecture 1. A.R.Volik. General information about reinforced concrete. 
Lecture 2. A.R.Volik. Strength characteristics of concrete. 
Lecture 3. A.R.Volik. Deformation characteristics of concrete. 
Lecture 4. A.R.Volik. Armature for reinforced concrete structures. 
Lecture 5. A.R.Volik. Bases of calculation of concrete structures. 
Lecture 6. A.R.Volik. Principles of calculation of limit states. 
Lecture 7. A.R.Volik. The experimental foundations of the theory of reinforced concrete resistance. 
Lecture 8-9. A.R.Volik. Methods of calculation of reinforced concrete elements. The general deformation method. 
Lecture 10-11. A.R.Volik. Calculation of sections normal to the longitudinal axis of reinforced concrete structures with a uniform distribution of stresses along the height of the effective compressed zone. 
Lecture 12. A.R.Volik. The method of calculation of reinforced concrete structures under the action of bending moments and longitudinal forces (parabolically-linear or bilinear plot of concrete in the compressed zone). 
Lecture 13. A.R.Volik. Calculation of reinforced concrete elements for action of transverse forces. 
Lecture 14-15. A.R.Volik. Calculation of reinforced concrete elements under local action loads. 
Lecture 16. A.R.Volik. Control of cracking of reinforced concrete structures. 
Lecture 17-18. A.R.Volik. The calculation of reinforced concrete structures by deformation. 

Practical unit
The practical class №1. The determination of the values of the permanent actions operating on the structure. The determination of characteristic and design values. 
The practical class №2. Construction of diagrams of concrete deformation.  
The practical class №3. Determine the effective depth of section.  
The practical class №4. Calculation of bending elements of rectangular section with uniform distribution of voltages by height of effective compression zone. 
The practical class №5. Calculation of bending elements of rectangular section with the use of linear parabolic diagram of concrete deformation 
The practical class №6. Determination of ultimate breaking moment and selection of reinforcement for T-section 
The practical class №7. Calculation of reinforced concrete elements for the action of transverse force. 
The practical class №8. Calculation of reinforced concrete elements for the action of transverse force. 

Laboratory works 
Laboratory work №1; 2 (Methodical recommendations) 
Laboratory work №3; 4 (Methodical recommendations) 
Laboratory work №5; 6 (Methodical recommendations) 
Laboratory work №7; 8 (Methodical recommendations) 
Workbook № 1; 2
Workbook № 3; 4

Workbook № 5; 6
Workbook № 7; 8

! QUESTIONS FOR PREPARATION FOR THE CREDIT ACCORDING TO SECTION 1  
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Literature 
Eurocode EN 1990-2002. 

PART 2 

Lectures
Lecture 1. Reinforced concrete constructions of industrial and civil buildings and structures.  
Lectures 2,3,4. Plane reinforced floor.  
Lecture 5. Rebristic monolithic crossings with covered plates.  
Lecture 6. Beam precast flat.  
Lecture 7. Calculation and design of crossbar.  
Lecture 8. Calculation of statically indeterminate reinforced concrete structures taking into account the redistribution of effort.  
Lecture 9. Design and calculation of reinforced concrete Column of multi-storey buildings.  
Lecture 10. Design and calculation of reinforced concrete Column of multi-storey buildings.  

Course project
 - MONOLITHIC REINFORCED CONCRETE RIBBED FLOOR. Methodical instructions to the course project execution «Multi-storey frame building» on the discipline " Calculation and engineering of building structures " .  

- The graphical part.  
Methodical instructions to course project. Part 1 - Monolithic floor.
Example of the design note (course project) part - monolithic slab.
1. Example of the calculation of monolithic reinforced concrete floors with beams plates.  
2. Example of determination of design spans.  
3. Example of the calculation of the columns of the first floor. 

! Questions and tasks for the exam  
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Practical unit
The practice №1. The combination of monolithic ribbed floor. (Практическое занятие 1. Компоновка монолитного ребристого перекрытия).  
The practice №2. The design of working reinforcement of monolithic floor slab. (Практическое занятие 2. Расчет рабочей арматуры монолитной плиты перекрытия)
  
The practice №3-5. The design of working reinforcement of monolithic floor slab.

Контакты

230015, г. Гродно, ул. Курчатова, 1а, каб. 502 

+375(152) 41-61-80,

+375(33) 6051242 (мтс) – деканат дневной формы обучения, расписание занятий заочной полной и сокращенной форм обучения;

+375(152) 41-61-09, 

+375(29) 8694850  (мтс) – деканат заочной формы обучения, восстановление студентов

E-mail: d4907@grsu.by