Course Details
Concrete structures 1
Academic Year 2023/24
BL005 course is part of 2 study plans
B-K-C-SI (N) / S Summer Semester 3rd year
B-P-C-SI (N) / S Summer Semester 3rd 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 pad, strip, grid and mat foundation.
Dimensioning reinforced concrete members considering theirs limit serviceability.
Two-ways slabs – edge supported. Circular and annular slabs. Two-way ribbed and cassette slabs. Wall beams – simple and continuous.
Construction and expansion joints in concrete structures. Realisation and control of concrete structures.
Dimensioning reinforced concrete members considering theirs limit serviceability.
Two-ways slabs – edge supported. Circular and annular slabs. Two-way ribbed and cassette slabs. Wall beams – simple and continuous.
Construction and expansion joints in concrete structures. Realisation and control of concrete structures.
Course Guarantor
Institute
Objective
To teach the students to design reinforced framed concrete structures and simple foundation structures.
Understanding of the behaviour of flat concrete structure. Design of stab and wall concrete structures.
Understanding of the behaviour of flat concrete structure. Design of stab and wall concrete structures.
Knowledge
A student gains these knowledge and skills:
• Knowledge of designing framed reinforced concrete structures and simple foundation structures.
• Understanding to the behaviour of flat concrete structures.
• Designing slab and wall concrete structures.
• Knowledge of designing framed reinforced concrete structures and simple foundation structures.
• Understanding to the behaviour of flat concrete structures.
• Designing slab and wall concrete structures.
Syllabus
1. Multi-storey frame structures – system arrangement, loading, design, space stiffness – bracing.
2. Multi-storey frame structures – structural analysis, reduction and redistribution of internal forces.
3. Multi-storey frame structures – reinforcement detailing, constructive principles.
4.-5. Serviceability of reinforced concrete structures – stress limitation, cracks control, deflection control.
6.-7. Principles of design of cast in place foundation structures – reinforced and plain concrete footing, continuous footings and grids.
8. Single-storey frame structures – pointed and arched girder, corbels.
9. Two-way edge supported slabs - structural arrangement, structural analysis, reinforcement.
10. Continuous two-way slabs – principle of solution, reinforcement detailing. Slabs partially edge supported.
11. Serviceability of two-way slabs. Slabs of common shape.
12. Circular and annular slabs. Waffle slabs.
13. Simple supported and continuous deep girders. Work joints and expansion gaps in structures. Manufacturing and control of structures.
2. Multi-storey frame structures – structural analysis, reduction and redistribution of internal forces.
3. Multi-storey frame structures – reinforcement detailing, constructive principles.
4.-5. Serviceability of reinforced concrete structures – stress limitation, cracks control, deflection control.
6.-7. Principles of design of cast in place foundation structures – reinforced and plain concrete footing, continuous footings and grids.
8. Single-storey frame structures – pointed and arched girder, corbels.
9. Two-way edge supported slabs - structural arrangement, structural analysis, reinforcement.
10. Continuous two-way slabs – principle of solution, reinforcement detailing. Slabs partially edge supported.
11. Serviceability of two-way slabs. Slabs of common shape.
12. Circular and annular slabs. Waffle slabs.
13. Simple supported and continuous deep girders. Work joints and expansion gaps in structures. Manufacturing and control of structures.
Prerequisites
technical mathematics, technical physics, structural mechanics, theory of elasticity, loads, design of concrete members, material properties of concrete and reinforcing steel.
Language of instruction
Czech, English
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. Multi-storey frame structures – system arrangement, loading, design, space stiffness – bracing.
2. Multi-storey frame structures – structural analysis, reduction and redistribution of internal forces.
3. Multi-storey frame structures – reinforcement detailing, constructive principles.
4.-5. Serviceability of reinforced concrete structures – stress limitation, cracks control, deflection control.
6.-7. Principles of design of cast in place foundation structures – reinforced and plain concrete footing, continuous footings and grids.
8. Single-storey frame structures – pointed and arched girder, corbels.
9. Two-way edge supported slabs - structural arrangement, structural analysis, reinforcement.
10. Continuous two-way slabs – principle of solution, reinforcement detailing. Slabs partially edge supported.
11. Serviceability of two-way slabs. Slabs of common shape.
12. Circular and annular slabs. Waffle slabs.
13. Simple supported and continuous deep girders. Work joints and expansion gaps in structures. Manufacturing and control of structures.
Exercise
13 weeks, 2 hours/week, compulsory
Syllabus
1. Cast-in-place RC framed structure - preliminary design of dimensions, scheme of shape of structure, load, loading states for internal frame.
2. Calculation of internal forces of the frame.
3. Calculation of internal forces of the frame - continuation, combination of loads.
4. Dimensioning of cross beam for bend and shear (stirrups, eventually also bends).
5. Curtailment of reinforcement of cross beam. Checking.
6. Dimensioning of one internal column.
7. Structural solution and dimensioning of single footing below internal column.
8. Drawings of reinforcement of the cross beam, single footing and column. Checking.
9. Serviceability limit states – deformation, cracks.
10. Two-way slab – preliminary design, load, internal forces, dimensioning – design of reinforcement.
11. Rebar or netting reinforcing.
12. Final checking.
13. Project submission. Credit.