Technology of Construction Industry

Description: The discipline contains the basic principles of technological design of construction works, the composition and purpose of technological maps for the performance of certain types of work; excavation technology and pile installation; technology of laying concrete mix, installation of building structures; masonry technology; finishing coating technology, etc.

Amount of credits: 5

Пререквизиты:

• Architecture
• Building Materials

Course Workload:

Types of classes	hours
Lectures	15
Practical works	30
Laboratory works
SAWTG (Student Autonomous Work under Teacher Guidance)	30
SAW (Student autonomous work)	75
Form of final control	Exam
Final assessment method	in the computer class

Component: University component

Cycle: Base disciplines

Goal

• The purpose of teaching the discipline is the formation of professional knowledge and the necessary practical skills of bachelors in the performance of general construction work.

Objective

• Providing, in accordance with the qualification characteristics of the bachelor, the knowledge and skills necessary for the successful performance in the future of the relevant functional duties in all positions in all departments related to the field of activity of the builder.

Learning outcome: knowledge and understanding

• Demonstrate an understanding of the essence and significance of modern society, mastery of the main methods, ways and means of obtaining, storing, processing information; use of modern technical means for solving communication problems.

Learning outcome: applying knowledge and understanding

• The ability to independently apply the methods and means of cognition, learning and self-control, to be aware of the prospects of intellectual, cultural, moral, physical and professional self-development and self-improvement, to be able to critically assess their own strengths and weaknesses.

Learning outcome: formation of judgments

• Demonstrate knowledge of the technical, legal, social, environmental and cultural aspects of integrated engineering activities, awareness of health protection, life safety and labor safety in production.

Learning outcome: communicative abilities

• The ability to work effectively individually and as a member of a team, demonstrating the skills of managing separate groups of performers, including on interdisciplinary projects, be able to show personal responsibility, adherence to professional ethics and standards of professional conduct.

Learning outcome: learning skills or learning abilities

• Communicate in a professional environment and in society as a whole, including in a foreign language; analyze existing and develop independently technical documentation: clearly state and defend the results of integrated engineering activities at enterprises of the construction and installation complex and in industry scientific organizations.

Teaching methods

For teaching, traditional technologies are provided: classroom classes and independent work of undergraduates. The lecture course is presented in a multimedia form. When presenting lecture material at the beginning and at the end of the lecture, motivational speech is used. Text, audio and video information, graphs, tables, etc. are used in the lecture-presentation and practical exercises.

Assessment of the student's knowledge

Teacher oversees various tasks related to ongoing assessment and determines students' current performance twice during each academic period. Ratings 1 and 2 are formulated based on the outcomes of this ongoing assessment. The student's learning achievements are assessed using a 100-point scale, and the final grades P1 and P2 are calculated as the average of their ongoing performance evaluations. The teacher evaluates the student's work throughout the academic period in alignment with the assignment submission schedule for the discipline. The assessment system may incorporate a mix of written and oral, group and individual formats.

Period	Type of task	Total
1  rating	Calculation of the scope of work	0-100
	Calculation of the volume of work in squares
	Determination of the average distance of soil movement from excavation to embankment
2  rating	Feasibility study of the best mechanization option.	0-100
	Calculation of dewatering of the groundwater level
	Work performance and safety
	Execution of the graphic part
Total control	Exam	0-100

The evaluating policy of learning outcomes by work type

Type of task	90-100	70-89	50-69	0-49
	Excellent	Good	Satisfactory	Unsatisfactory

Evaluation form

The student's final grade in the course is calculated on a 100 point grading scale, it includes:

• 40% of the examination result;
• 60% of current control result.

The final grade is calculated by the formula:

FG = 0,6	MT1+MT2	+0,4E
	2

 

Where Midterm 1, Midterm 2are digital equivalents of the grades of Midterm 1 and 2;

E is a digital equivalent of the exam grade.

Final alphabetical grade and its equivalent in points:

The letter grading system for students' academic achievements, corresponding to the numerical equivalent on a four-point scale:

Alphabetical grade	Numerical value	Points (%)	Traditional grade
A	4.0	95-100	Excellent
A-	3.67	90-94
B+	3.33	85-89	Good
B	3.0	80-84
B-	2.67	75-79
C+	2.33	70-74
C	2.0	65-69	Satisfactory
C-	1.67	60-64
D+	1.33	55-59
D	1.0	50-54
FX	0.5	25-49	Unsatisfactory
F	0	0-24

Topics of lectures

• Building production is the science of building production
• Basic concepts of building production
• Engineering preparation of the construction site
• Excavation
• Excavation
• Excavation
• Concrete works
• Concrete works
• Concrete works
• Masonry
• Masonry
• Masonry
• Finishing work
• Finishing work
• Waterproofing and thermal insulation works

Key reading

• 1. Khansiorg F., Fal'k B., Tekhnologiya stroitel'nogo proizvodstva. Uchebnoe posobie, Astana : Foliant, 2021. - 368s. 2. Kozhas A.K., Pchel'nikova Yu.N. Uchebnoe posobie po distsipline «Tekhnologiya stroitel'nogo proizvodstva I» «Proektirovanie proizvodstva zemlyanykh rabot». Karaganda 2014 g. – 61 s. 3. Kozhas A.K., Pchel'nikova Yu.N. Uchebnoe posobie po distsipline «Tekhnologiya stroitel'nogo proizvodstva I» «Proektirovanie proizvodstva zemlyanykh rabot pri vertikal'noi planirovke ploshchadki» dlya vypolneniya kursovoi raboty». Karaganda 2015 g. – 52 s. 4. Sokolov, G.K. Tekhnologiya i organizatsiya stroitel'stva.. / G.K. Sokolov. - M.: Academia, 2018. - 124 c. 5. Sokolov, G.K. Tekhnologiya i organizatsiya stroitel'stva: Uchebnik / G.K. Sokolov. - M.: Academia, 2018. - 112 c. 6. Statsenko A.S., Rudomin E.N., Osnovina L.G., Mal'tsevich N.V., Osnovin S.V., Mazhaiskii Yu.A., Revich Ya.L., Tekhnologiya stroitel'nogo proizvodstva: Uchebnik - M.: LitRes, 2016.-377s.. 7. Gol'tsev A.G., Tret'yakov V.V., Bol'shakov D.V., Titov M.M., Uchebnoe posobie po Tekhnologii stroitel'nogo proizvodstva. VKGTU, 2014 g. 8. Sokolov G.K., Tekhnologiya stroitel'nogo proizvodstva 2e izdanie: Uchebnik - M.: Izdatel'skii tsentr «Akademiya», 2014. - 544 s. 9. SN RK 1.03-01-2016 «Prodolzhitel'nost' stroitel'stva i zadel v stroitel'stve predpriyatii, zdanii i sooruzhenii. Chast' I» 10. SN RK 1.03-02-2014 «Prodolzhitel'nost' stroitel'stva i zadel v stroitel'stve predpriyatii, zdanii i sooruzhenii. Chast' II»

Further reading

• 11. Sokolov G.K., Tekhnologiya stroitel'nogo proizvodstva : ucheb.posobie. - M. : Akademiya, 2006. 12. Beletskii B.F., Tekhnologiya i mekhanizatsiya stroitel'nogo proizvodstva : uchebnik dlya vuzov . Izd. 3-e. - Rostov n/D : Feniks, 2004. 13. Khamzin S.K., . Osnovy stroitel'nogo proizvodstva : uchebnik. - Astana : Foliant, 2006. 14. Khamzin S.S., Karasev S.K. Tekhnologiya stroitel'nogo proizvodstva. Posobie po kursovomu i diplomnomu proektirovaniyu. Uchebnoe posobie. – M.: Vysshaya shkola, 1989. 15. Khamzin S.K., Tazhenov A.E. Proektirovanie zemlyanykh rabot i ustroistvo fundamentov. Uchebnoe posobie. – M.: VPZI, 1990. 16. Tolkynbaev T.A., Tekhnologiya i organizatsiya remontno-stroitel'nykh rabot: ucheb. posobie. - Ust'-Kamenogorsk : VKGTU, 2001.