Course Details
Load-Bearing Structures 2
Academic Year 2023/24
AF001 course is part of 1 study plan
B-P-C-APS (N) / APS Summer Semester 2nd year
Design of concrete elements due to service limit state, reinforced concrete framed structures, space floor slab structures, foundation structures.
Properties of a timber and materials on the basis of a timber from the aspect of utilization in building structures, Czech and foreign standards for the design of structures, limit states of timber structures, basic types of stresses of members of timber structures and methodology of their checking, joints of timber structures, plated and truss structures, space timber structures – lattice structures, space bar systems, ribbed dome, vaulted and shell structures.
Properties of soils, classification of soils for foundation engineering, stresses at soils, geostatical stress, contact pressure, stress from external loading, limit states methodology, the design of shallow foundations due to limit states, retaining and pile walls, diaphragm walls, gabions, foundation pit, deep foundations, special foundation methods, jet grouting, micropiles.
Properties of a timber and materials on the basis of a timber from the aspect of utilization in building structures, Czech and foreign standards for the design of structures, limit states of timber structures, basic types of stresses of members of timber structures and methodology of their checking, joints of timber structures, plated and truss structures, space timber structures – lattice structures, space bar systems, ribbed dome, vaulted and shell structures.
Properties of soils, classification of soils for foundation engineering, stresses at soils, geostatical stress, contact pressure, stress from external loading, limit states methodology, the design of shallow foundations due to limit states, retaining and pile walls, diaphragm walls, gabions, foundation pit, deep foundations, special foundation methods, jet grouting, micropiles.
Course Guarantor
Institute
Objective
To teach the students the basic principles of static design of concrete and timber structures. Students will be able to solute safely and reliably foundations of overground structures.
Knowledge
Student will master the basic principles of static design of concrete and timber structures. Student will be able to solute safely and reliably foundations of overground structures.
Syllabus
1. Design of concrete elements due to service limit state.
2. Reinforced concrete framed structures.
3. Space floor slab structures - slabs bearing in two directions, grid structure.
4. Foundation structures – pads, continuous footings, rafts, slabs.
5. Properties of a timber and materials on the basis of a timber from the aspect of utilization in building
structures. Czech and foreign standards for the design of structures. Limit states of timber structures.
6. Basic types of stresses of members of timber structures and methodology of their checking. Joints of timber
structures.
7. Plated and truss structures. Space timber structures – lattice structures, space bar systems, ribbed dome, vaulted
and shell structures.
8. Soil difference of other building materials. Particular nature of soils. Soil properties. Strength of soils.
Compressibility of soils. Classification of soils for engineering purposes. Consolidation of soils.
9. Stresses at soils. Geostatical stress. Stress from external loading. Contact pressure.
10. Limit states methodology. Bearing capacity and settlement of soils. Geotechnical categories. Slope stability.
11. The design and check of shallow foundations due to limit states. Soil improvement.
12. Earth pressures. Structures against earth pressures. Retaining and pile walls, diaphragm walls. Gabions.
Foundation pit.
13. Deep foundations. Drilled and CFA piles. Technology. Limit load curve. Special foundation methods. Jet grouting.
Micropiles.
2. Reinforced concrete framed structures.
3. Space floor slab structures - slabs bearing in two directions, grid structure.
4. Foundation structures – pads, continuous footings, rafts, slabs.
5. Properties of a timber and materials on the basis of a timber from the aspect of utilization in building
structures. Czech and foreign standards for the design of structures. Limit states of timber structures.
6. Basic types of stresses of members of timber structures and methodology of their checking. Joints of timber
structures.
7. Plated and truss structures. Space timber structures – lattice structures, space bar systems, ribbed dome, vaulted
and shell structures.
8. Soil difference of other building materials. Particular nature of soils. Soil properties. Strength of soils.
Compressibility of soils. Classification of soils for engineering purposes. Consolidation of soils.
9. Stresses at soils. Geostatical stress. Stress from external loading. Contact pressure.
10. Limit states methodology. Bearing capacity and settlement of soils. Geotechnical categories. Slope stability.
11. The design and check of shallow foundations due to limit states. Soil improvement.
12. Earth pressures. Structures against earth pressures. Retaining and pile walls, diaphragm walls. Gabions.
Foundation pit.
13. Deep foundations. Drilled and CFA piles. Technology. Limit load curve. Special foundation methods. Jet grouting.
Micropiles.
Prerequisites
Basic knowledge of structural mechanics, theory of elasticity, loads, basic principles of structure design, engineering geology.
Language of instruction
Czech
Credits
3 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. Design of concrete elements due to service limit state.
2. Reinforced concrete framed structures.
3. Space floor slab structures - slabs bearing in two directions, grid structure.
4. Foundation structures – pads, continuous footings, rafts, slabs.
5. Properties of a timber and materials on the basis of a timber from the aspect of utilization in building
structures. Czech and foreign standards for the design of structures. Limit states of timber structures.
6. Basic types of stresses of members of timber structures and methodology of their checking. Joints of timber
structures.
7. Plated and truss structures. Space timber structures – lattice structures, space bar systems, ribbed dome, vaulted
and shell structures.
8. Soil difference of other building materials. Particular nature of soils. Soil properties. Strength of soils.
Compressibility of soils. Classification of soils for engineering purposes. Consolidation of soils.
9. Stresses at soils. Geostatical stress. Stress from external loading. Contact pressure.
10. Limit states methodology. Bearing capacity and settlement of soils. Geotechnical categories. Slope stability.
11. The design and check of shallow foundations due to limit states. Soil improvement.
12. Earth pressures. Structures against earth pressures. Retaining and pile walls, diaphragm walls. Gabions.
Foundation pit.
13. Deep foundations. Drilled and CFA piles. Technology. Limit load curve. Special foundation methods. Jet grouting.
Micropiles.
Exercise
13 weeks, 1 hours/week, compulsory
Syllabus
1.-2. Introduction. Design of two way reinforced slab.
3.-4. Design principles, scheme of drawing reinforcement
5.-6. Properties of a timber and materials on the basis of a timber from the aspect of utilization in structures.
7.-8. Basic types of stresses of members of timber structures and methodology of their checking.
9.-10. Soil properties from the point of view of geotechnical structures design. Stresses at soils.
11.-12. Limit states methodology. The design of shallow foundations due to limit states.
13. Deep foundations. Credit.