Home/ Majors directory/Building and Civil Engineering/Design of Reinforced Concrete and Masonry Structures
Design of Reinforced Concrete and Masonry Structures
Major: Building and Civil Engineering
Code of subject: 7.192.01.E.022
Credits: 3.50
Department: Building Constructions and Bridges
Lecturer: Khmil Roman, D.Sc., associate professor
Semester: 2 семестр
Mode of study: денна
Завдання: INT. To acquire the ability to solve complex engineering and technical and scientific and applied problems during research and professional activities in the field of construction and civil engineering and in the process of learning using modern information and innovative technologies.
SС 01. The ability to integrate knowledge from other fields and specialized conceptual knowledge in the field of construction and civil engineering, combined with compliance with applicable regulatory and legal documents, to solve complex problems in broad or multidisciplinary contexts.07
SС 03. Ability to develop and implement projects in the field of construction and civil engineering.
SCP 1.1. In-depth knowledge of current regulatory documents, standards, recommendations and other regulatory documents in the field of design and construction of industrial and civil buildings.
SCP 1.3. The ability to implement modern constructive solutions and, applying research skills, form and develop new solutions in the field of design, construction of industrial and civil buildings.
Learning outcomes: RN 01. Design common industrial and civil buildings and structures, including using computer design software systems.
RN 03. To carry out technical examination of projects of construction and civil engineering objects (in accordance with specialization), controlling the compliance of projects and technical documentation with design tasks, technical conditions and other current regulatory and legal documents in the field of architecture and construction.
RN 08. Select modern materials, technologies and methods of construction works, taking into account the architectural and planning, constructive part of the project and the production base of the construction organization.
RN 09. Collect the necessary information using scientific and technical literature, databases and other sources, analyze and evaluate it.
RN 10. Ability to carry out commercial and economic activities of intellectual property protection in the field of architecture and construction.
RN 11. Manage complex, unpredictable construction processes that require new strategic approaches.
RNS 1.2. Know and apply appropriate engineering and technical solutions when designing complex and responsible industrial and civil construction objects;
RNS 1.4 Search for information in various sources, perform the necessary research and apply research skills when solving the problems of designing and building industrial and civil buildings.
RNS 1.5 Systematically think and apply creative abilities to the formation of fundamentally new constructive and technological solutions in the design and implementation of industrial and civil buildings
ЗН1. Specialized conceptual knowledge that includes current scientific achievements in the field of professional activity or field of knowledge and is the basis for original thinking and conducting research.
KOM 1. Clear and unambiguous presentation of own knowledge, conclusions and arguments to specialists and non-specialists, in particular to persons studying
Required prior and related subjects: Construction mechanics
Building structures
Reinforced concrete and stone structures
Summary of the subject: Constructions of multi-storey industrial and civil buildings. Structural schemes of buildings. Main vertical structures, design schemes and loads. Frame systems. Flat reinforced concrete slabs of multi-storey industrial and civil buildings.
Prefabricated reinforced concrete structures of single-storey industrial buildings (crane girders, columns, beams, trusses, arches, slabs); their calculation and design.
Thin-walled large-span structure: design features, classification. Roof by cylindrical shells and prismatic folds. Roof with shells of positive and negative Gaussian curvature. Domes and vaulted structure: constructive decisions, principles of calculation. Suspension structures: types, design schemes, calculation.
Structures of engineering structures: cylindrical and rectangular tanks; retaining walls; bunkers and silos; water towers: design solutions, features of calculation and design.
Опис: Chapter 1. General principles of designing reinforced concrete structures
Chapter 2. Designs of flat floors
Chapter 3. Structures of single-story buildings
Chapter 4. Thin-walled spatial coatings
Chapter 5. Structures of multi-story frame and panel buildings
Chapter 6. Constructions of engineering structures
Assessment methods and criteria: oral examination (30%) final control: written and oral form (70%)
Критерії оцінювання результатів навчання: Current control is evaluated: oral survey in practical classes (30 points). The exam includes 2 stages: control in the VNS environment (50 points) and oral interview (20 points).
Recommended books: 1. Eurocode-2: Design of Concrete Structures: EN 1992-1; EN 1992-2; EN 1992-3. – Brussels: CEN. - 2002-2006 - 270 p. 2. Eurocode-1: Actions on structures: EN 1991-1; EN 1991-2; EN 1991-3; EN 1991-4. – Brussels: CEN. - 2002-2006 - 415 p. 3. BS EN 1992-1-1:2004+A1:2014 - BSI, London – 230 p. 4. McCormac J. Design of Reinforced Concrete. Ninth edition / McCormac, J. Brown, R.; –2014. – 742 p
Design of Reinforced Concrete and Masonry Structures (курсовий проєкт)
Major: Building and Civil Engineering
Code of subject: 7.192.01.E.025
Credits: 3.00
Department: Building Constructions and Bridges
Lecturer: Khmil Roman, D.Sc., associate professor
Semester: 2 семестр
Mode of study: денна
Завдання: INT. To acquire the ability to solve complex engineering and technical and scientific and applied problems during research and professional activities in the field of construction and civil engineering and in the process of learning using modern information and innovative technologies.
SС 01. The ability to integrate knowledge from other fields and specialized conceptual knowledge in the field of construction and civil engineering, combined with compliance with applicable regulatory and legal documents, to solve complex problems in broad or multidisciplinary contexts.07
SС 03. Ability to develop and implement projects in the field of construction and civil engineering.
SCP 1.1. In-depth knowledge of current regulatory documents, standards, recommendations and other regulatory documents in the field of design and construction of industrial and civil buildings.
SCP 1.3. The ability to implement modern constructive solutions and, applying research skills, form and develop new solutions in the field of design, construction of industrial and civil buildings.
Learning outcomes: RN 01. Design common industrial and civil buildings and structures, including using computer design software systems.
RN 02. Make effective design and technical decisions, taking into account the features of the construction object, aspects of social and ethical responsibility, technical and economic justification, determination of the optimal mode of its operation and implementation of resource and energy saving measures.
RN 06. Apply modern mathematical and numerical methods for analysis, calculation and optimization of design parameters of industrial and civil buildings and structures.
RNS 1.1. Apply the acquired knowledge and understanding to identify, formulate and solve the design, construction and operation of industrial and civil facilities;
RNS 1.2. Know and apply appropriate engineering and technical solutions when designing complex and responsible industrial and civil construction objects;
RNS 1.3. Combine theory and practice, as well as make decisions to achieve set goals. applying the methodological tools of knowledge in the field of design and construction of industrial and civil buildings;
RNS 1.5 Systematically think and apply creative abilities to the formation of fundamentally new constructive and technological solutions in the design and implementation of industrial and civil buildings
UM2. Ability to integrate knowledge and solve complex problems in broad or multidisciplinary contexts
AiV 3. Ability to continue learning with a high degree of autonomy.
Required prior and related subjects: Construction mechanics
Building structures
Reinforced concrete and stone structures
Summary of the subject: Constructions of multi-storey industrial and civil buildings. Structural schemes of buildings. Main vertical structures, design schemes and loads. Frame systems. Flat reinforced concrete slabs of multi-storey industrial and civil buildings.
Prefabricated reinforced concrete structures of single-storey industrial buildings (crane girders, columns, beams, trusses, arches, slabs); their calculation and design.
Thin-walled large-span structure: design features, classification. Roof by cylindrical shells and prismatic folds. Roof with shells of positive and negative Gaussian curvature. Domes and vaulted structure: constructive decisions, principles of calculation. Suspension structures: types, design schemes, calculation.
Structures of engineering structures: cylindrical and rectangular tanks; retaining walls; bunkers and silos; water towers: design solutions, features of calculation and design.
Опис: Chapter 1. General principles of designing reinforced concrete structures
Chapter 2. Designs of flat floors
Chapter 3. Structures of single-story buildings
Chapter 4. Thin-walled spatial coatings
Chapter 5. Structures of multi-story frame and panel buildings
Chapter 6. Constructions of engineering structures
Assessment methods and criteria: oral examination (30%) final control: written and oral form (70%)
Критерії оцінювання результатів навчання: Current control is evaluated: oral survey in practical classes (30 points). The exam includes 2 stages: control in the VNS environment (50 points) and oral interview (20 points).
Recommended books: 1. Eurocode-2: Design of Concrete Structures: EN 1992-1; EN 1992-2; EN 1992-3. – Brussels: CEN. - 2002-2006 - 270 p. 2. Eurocode-1: Actions on structures: EN 1991-1; EN 1991-2; EN 1991-3; EN 1991-4. – Brussels: CEN. - 2002-2006 - 415 p. 3. BS EN 1992-1-1:2004+A1:2014 - BSI, London – 230 p. 4. McCormac J. Design of Reinforced Concrete. Ninth edition / McCormac, J. Brown, R.; –2014. – 742 p