Course Details
Selected Chapters of Concrete and Masonry Structures
Academic Year 2023/24
BLA021 course is part of 1 study plan
BPC-EVB Winter Semester 4th year
Trends in the development of masonry structures, basic materials and structural systems of masonry structures. Methods of stressing masonry structures. Ultimate limit states and serviceability limit states. Knowledge of static approach to reconstructions of building and engineering objects. Static analysis of Strengthening of Concrete and Masonry Structures. Design of concrete structures exposed to fire. Survey and static behavior of panel systems, additional interventions in the load-bearing elements of panel systems. Modern composite structures. Basics of environmental design of structures.
Course Guarantor
Institute
Syllabus
1. Development of masonry structures and their design. Materials for masonry structures. Structural arrangement. Strength and deformation properties of masonry. Buckling influence.
2. Load-bearing capacity of masonry elements axially or unaxially compressed. Load-bearing capacity of masonry elements stressed by flexure, shear, tension or concentrated pressure. Serviceabiity and detailing.
3. General principles for the design of masonry structures. Design of masonry arches.
4. Service life of the structure. failures - their causes, monitoring and possibilities of reducing their occurrence. Methods of diagnostics survey of concrete and masonry structures.
5. Static conditions for the execution of reconstructions. Strengthening for concrete structures and masonry structures.
6. Strengthening and reconstruction of structures using concrete, steel and wood. Strengthening of foundations.
7. Static solution of superstructures. Temporary protection of structures during strengthening. Deformation of strengthening structures and their time monitoring. Using of bonded carbon strips
8. Behavior of concrete and concrete structures in a fire. Impact of fire on the load-bearing capacity of structures. Assessment of fire resistance, temperature of concrete and reinforcement in case of fire.
9. Principles of the proposal. Design methods for concrete structures exposed to fire - design according to tables. Simplified methods and advanced methods.
10. Properties of masonry exposed to high temperatures. Determination of mechanical and physical characteristics of masonry. Principles of the proposal. Design methods for masonry structures exposed to fire effects.
11. Panel systems, design solution. Parts and their connections. Reconstruction, rehabilitation, superstructures, interventions in the supporting elements of panel systems.
12. Modern composite structures.
13. Basics of environmental design of concrete and masonry structures.
2. Load-bearing capacity of masonry elements axially or unaxially compressed. Load-bearing capacity of masonry elements stressed by flexure, shear, tension or concentrated pressure. Serviceabiity and detailing.
3. General principles for the design of masonry structures. Design of masonry arches.
4. Service life of the structure. failures - their causes, monitoring and possibilities of reducing their occurrence. Methods of diagnostics survey of concrete and masonry structures.
5. Static conditions for the execution of reconstructions. Strengthening for concrete structures and masonry structures.
6. Strengthening and reconstruction of structures using concrete, steel and wood. Strengthening of foundations.
7. Static solution of superstructures. Temporary protection of structures during strengthening. Deformation of strengthening structures and their time monitoring. Using of bonded carbon strips
8. Behavior of concrete and concrete structures in a fire. Impact of fire on the load-bearing capacity of structures. Assessment of fire resistance, temperature of concrete and reinforcement in case of fire.
9. Principles of the proposal. Design methods for concrete structures exposed to fire - design according to tables. Simplified methods and advanced methods.
10. Properties of masonry exposed to high temperatures. Determination of mechanical and physical characteristics of masonry. Principles of the proposal. Design methods for masonry structures exposed to fire effects.
11. Panel systems, design solution. Parts and their connections. Reconstruction, rehabilitation, superstructures, interventions in the supporting elements of panel systems.
12. Modern composite structures.
13. Basics of environmental design of concrete and masonry structures.
Prerequisites
structural mechanics, theory of elasticity, loading and reliability of structures, design of concrete members and structures
Language of instruction
Czech
Credits
4 credits
Semester
winter
Forms and criteria of assessment
course-unit credit and examination
Specification of controlled instruction, the form of instruction, and the form of compensation of the absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Offered to foreign students
Not to offer
Course on BUT site
Lecture
13 weeks, 2 hours/week, elective
Syllabus
1. Development of masonry structures and their design. Materials for masonry structures. Structural arrangement. Strength and deformation properties of masonry. Buckling influence.
2. Load-bearing capacity of masonry elements axially or unaxially compressed. Load-bearing capacity of masonry elements stressed by flexure, shear, tension or concentrated pressure. Serviceabiity and detailing.
3. General principles for the design of masonry structures. Design of masonry arches.
4. Service life of the structure. failures - their causes, monitoring and possibilities of reducing their occurrence. Methods of diagnostics survey of concrete and masonry structures.
5. Static conditions for the execution of reconstructions. Strengthening for concrete structures and masonry structures.
6. Strengthening and reconstruction of structures using concrete, steel and wood. Strengthening of foundations.
7. Static solution of superstructures. Temporary protection of structures during strengthening. Deformation of strengthening structures and their time monitoring. Using of bonded carbon strips
8. Behavior of concrete and concrete structures in a fire. Impact of fire on the load-bearing capacity of structures. Assessment of fire resistance, temperature of concrete and reinforcement in case of fire.
9. Principles of the proposal. Design methods for concrete structures exposed to fire - design according to tables. Simplified methods and advanced methods.
10. Properties of masonry exposed to high temperatures. Determination of mechanical and physical characteristics of masonry. Principles of the proposal. Design methods for masonry structures exposed to fire effects.
11. Panel systems, design solution. Parts and their connections. Reconstruction, rehabilitation, superstructures, interventions in the supporting elements of panel systems.
12. Modern composite structures.
13. Basics of environmental design of concrete and masonry structures.
Exercise
13 weeks, 1 hours/week, compulsory
Syllabus
1. Material characteristics. Axially loaded brickwork column.
2. Perimeter wall of a building with timber floors.
3. Interaction diagram of a brickwork column of T-shape.
4. Masonry arch.
5. Correction.
6.–7. Strengthening of concrete members subjected to bending moment: Strengthening using additional reinforcement and concrete envelope, Strengthening with carbon fibre reinforced polymer strip.
8.–9. Strengthening of timber floor structure: Reinforced concrete (RC) slab.
10. Correction.
11-12. Design of concrete structures exposed to fire.
13. Project and tasks submission. Credit.