Course Details
Concrete Structures 2 (EVB)
Academic Year 2023/24
BLA020 course is part of 1 study plan
BPC-EVB Summer Semester 2nd year
Reinforced concrete monolithic structures – one- and multi-storey frame structures and their structural elements. Design principles of cast-in-place foundation structures – wall footing, strip, grid and mat foundation. Precast structures – halls, skeletons, buildings from flat and spatial units. Type of units. Arrangement and details of connections. Design of precast units and structures. Design and application of composite structures within constructions of structural engineering. Selected structures of civil engineering – storages and tanks. Design principles of prestressed concrete members. Construction and expansion joints in concrete structures. Realisation and control of concrete structures.
Course Guarantor
Institute
Syllabus
1. Structural systems of multi-storey monolithic frame structures – arrangement of the systems, loading, design of dimensions, space stiffness.
2. Multi-storey monolithic frame structures – static analysis, arrangement of reinforcement, detailings.
3. Foundation structures as a part of the reliability system “subsoil – foundation – overground structure”. Results of geological survey. Foundations reliability. Limit states of subsoil and foundation structures load-bearing capacity.
4. Foundation structures – footings and continuous footings.
5. Foundation structures – grids and slabs, deep foundations.
6. Precast load-bearing structures halls and buildings – design and reinforcing, stability and stiffness.
7. Precast structures – influence of manufacturing, transport and assembly, design of joints, anchorages and lifitng lugs, action in assembly course.
8. Principles of design of selected engineering structures – storage tanks, silos, reservoirs, retaining walls.
9. Composite structures.
10. High-rise buildings.
11. – 12. Design of prestressed concrete members – principles, materials, prestressing and its changes, design principles.
13. Work joints and expansion gaps in structures. Manufacturing and site control of structures.
2. Multi-storey monolithic frame structures – static analysis, arrangement of reinforcement, detailings.
3. Foundation structures as a part of the reliability system “subsoil – foundation – overground structure”. Results of geological survey. Foundations reliability. Limit states of subsoil and foundation structures load-bearing capacity.
4. Foundation structures – footings and continuous footings.
5. Foundation structures – grids and slabs, deep foundations.
6. Precast load-bearing structures halls and buildings – design and reinforcing, stability and stiffness.
7. Precast structures – influence of manufacturing, transport and assembly, design of joints, anchorages and lifitng lugs, action in assembly course.
8. Principles of design of selected engineering structures – storage tanks, silos, reservoirs, retaining walls.
9. Composite structures.
10. High-rise buildings.
11. – 12. Design of prestressed concrete members – principles, materials, prestressing and its changes, design principles.
13. Work joints and expansion gaps in structures. Manufacturing and site control of structures.
Prerequisites
technical mathematics and physics, structural mechanics, linear theory of elasticity, load and reliability of the structures, principles of concrete members design
Language of instruction
Czech
Credits
5 credits
Semester
summer
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. Structural systems of multi-storey monolithic frame structures – arrangement of the systems, loading, design of dimensions, space stiffness.
2. Multi-storey monolithic frame structures – static analysis, arrangement of reinforcement, detailings.
3. Foundation structures as a part of the reliability system “subsoil – foundation – overground structure”. Results of geological survey. Foundations reliability. Limit states of subsoil and foundation structures load-bearing capacity.
4. Foundation structures – footings and continuous footings.
5. Foundation structures – grids and slabs, deep foundations.
6. Precast load-bearing structures halls and buildings – design and reinforcing, stability and stiffness.
7. Precast structures – influence of manufacturing, transport and assembly, design of joints, anchorages and lifitng lugs, action in assembly course.
8. Principles of design of selected engineering structures – storage tanks, silos, reservoirs, retaining walls.
9. Composite structures.
10. High-rise buildings.
11. – 12. Design of prestressed concrete members – principles, materials, prestressing and its changes, design principles.
13. Work joints and expansion gaps in structures. Manufacturing and site control of structures.
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Reinforced concrete structure - preliminary design of dimensions, schematic shape of the structure, loading, load cases for an inner frame.
2. Analysis of inner forces in the frame.
3. Analysis of inner forces in the frame - continuation.
4. Load combinations within the girder and column.
5. Design of the girder - bending moment.
6. Design of the girder - shear forces (stirrups and/or bends).
7. Reinforcement curtailment. Reinforcement drawings of the girder. Correction.
8. Design of an inner column.
9. Static analysis and design of a footing under the inner column.
10. Reinforcement drawings of the footing and column. Correction.
11. Deep beam.
12. Final correction.
13. Submit of the project. Credit.