Metal Construction of Single-Storey Industrial Buildings

Description: The course provides information on the operation, calculation and design of metal structures of single-storey production buildings. The issues of frame layout of production buildings with overhead cranes, static calculation of the transverse frame, calculation of load-bearing elements, new structural solutions of load-bearing structures are presented.

Amount of credits: 5

Пререквизиты:

• Metal Structures

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
Course Project
Form of final control	Exam
Final assessment method	Written exam

Component: Component by selection

Cycle: Profiling disciplines

Goal

• Formation of professional knowledge and necessary practical skills of the future bachelor builder

Objective

• The objectives of the discipline are to impart to future professionals the skills to calculate the elements of metal structures of production, for different types of loading, design and understanding of the structural elements of metal structures.

Learning outcome: knowledge and understanding

• Ability to apply basic and specialized knowledge of mathematics, natural sciences, humanities, and technical sciences in complex engineering activities based on a holistic system of scientific knowledge about the world around us.

Learning outcome: applying knowledge and understanding

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

Learning outcome: formation of judgments

• Demonstrate knowledge of technical, legal, social, environmental, and cultural aspects of complex engineering activities, and awareness of health, safety, and workplace issues.

Learning outcome: communicative abilities

• Ability to work effectively individually and as a team member, demonstrating leadership skills in leading individual teams, including interdisciplinary projects, personal responsibility, commitment to professional ethics and standards of professional practice.

Learning outcome: learning skills or learning abilities

• To communicate in the professional environment and society as a whole, including in a foreign language; to analyze existing and develop independently technical documentation; to clearly state and defend the results of complex engineering activities in the enterprises of the construction and installation complex and in industry research organizations.

Teaching methods

Traditional technologies are provided for teaching: classroom instruction and independent work of students. The lecture course is presented in multimedia form. Motivational speech is used when presenting lecture material at the beginning and at the end of the lecture. Text, audio and video information, graphs, tables, etc. are used in the lecture-presentation and practical classes.

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 and construction of the design diagram of a single-story industrial building	0-100
	Load collection and static calculation of the frame
	Colloquium on lectures 1-5
2  rating	Selection of metal structural cross-sections for a single-story industrial building	0-100
	Drawing design for an industrial building
	Colloquium on lectures 5-11
Total control	Exam, Course Project	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

• Structures of single-storey industrial buildings
• Column arrangement in the plan, transverse frame layout, connections
• Calculation of transverse frames
• Practical methods of calculation of transverse frames
• Calculation scheme of a truss
• Correcting truss sections
• Calculation of welds in truss joints
• Columns
• Selection of the section of the upper part of the columns
• Selection of the cross-section of the lower part of the columns
• Crane structures

Key reading

• 1 SNiP RK 5.04-23-2002. Stal'nye konstrukcii. Normy proektirovanija..Komitet po delam stroitel'stva Ministerstva industrii i torgovli RK. Astana. 2003-118s.
• 2 Metallicheskie konstrukcii: uchebnik / N.S. Moskalev, Ja.P. Pronozin. -M.: ASV, 2010. – 341
• 3 Metallicheskie konstrukcii: uchebnik dlja vuzov / Ju.I. Kudishin, E.I. Belenja i dr.; red. Ju.I. Kudishin. – 9-e izd., stereotip. -M.: Akademija, 2007. – 688 s.
• 4 Metallicheskie konstrukcii: uchebnik / pod red. V.V. Goreva. – 3-e izd. stereotip. -M.: Vyssh. Shk., 2004. – 551 s.
• 5 NTP RK 01-01-3.1(4.1)-2017 Nagruzki i vozdejstvija na zdanija. Chast' 1-3. Snegovye nagruzki (k SP RK EN 1991-1-3:2003/2011). Chast' 1-4. Vetrovye vozdejstvija (k SP RK EN 1991-1-4-2003/2011. Utv.: Prikaz № 312 -NK (2017, 20dekabrja) / predsedatel', Komitet po delam stroitel'stva i zhilishhno-kommunal'nogo hozjajstva, Ministerstvo po investicijam i razvitiju Respubliki Kazahstan.
• 6 Kusjabgaliev S.G. Metallicheskie konstrukcii : konspekt lekcij dlja bakalavrov spec. 050729 «Stroitel'stvo» vseh form obuchenija / VKGTU. –Ust'-Kamenogorsk: 2008. – 137 s.
• 7 SP RK EN 1993-1-1:2005/2011 Proektirovanie stal'nyh konstrukcij. Chast' 1-1: Obshhie pravila i pravila dlja zdanij. Utv.: Prikaz №156-NK (2014, 29 dekabrja) / Komitet po delam stroitel'stva, zhilishhno-kommunal'nogo hozjajstva i upravlenija zemel'nymi resursami, Ministerstvo nacional'noj jekonomiki Respubliki Kazahstan.

Further reading

• 1 Metallicheskie konstrukcii: Obshhij kurs: Uchebnik dlja vuzov / Belenja E.I. i dr. Izdatel'stvo 6-e, -M.: SI., 1985 – 560 s.
• 2 Kusjabgaliev S.G., Nugumanov D.T., Gubarev V.V. Stal'noj karkas odnojetazhnogo proizvodstvennogo zdanija. Metodicheskoe posobie k vypolneniju kursovogo proekta po discipline «Metallicheskie konstrukcii» dlja studentov special'nosti 4301 «PGS» vseh form obuchenija. Chast' ІІ. Ust'-Kamenogorsk, 2003. – 56 s.
• 3 Metallicheskie konstrukcii. Spravochnik proektirovshhika. Pod red. Mel'nikova N.P., 2-e izd. – M; SI, 1980. – 776 s.