221-0933/01 – Structural Systems of Constructions (KSS)
| Gurantor department | Department of Structures | Credits | 5 |
| Subject guarantor | prof. Ing. Radim Čajka, CSc. | Subject version guarantor | prof. Ing. Radim Čajka, CSc. |
| Study level | undergraduate or graduate | Requirement | Compulsory |
| Year | 4 | Semester | winter |
| | Study language | Czech |
| Year of introduction | 2005/2006 | Year of cancellation | 2020/2021 |
| Intended for the faculties | FAST | Intended for study types | Bachelor |
Subject aims expressed by acquired skills and competences
After completing this subject, students will be able to understand and apply the following skills and topic areas:
- principles of design and assessment of reinforced concrete structures;
- principles of design and assessment of steel structures;
- principles of design and assessment of timber structures.
Teaching methods
Lectures
Individual consultations
Tutorials
Project work
Summary
Reinforced concrete structural systems:
Reinforced concrete multi storey buildings: Framed structural systems, Panel structural systems, structural systems from spatial members, loads, material, basics of statical solution, effect of character of member joints, bracing systems. Reinforced concrete halls: Loads, truss halls, non-truss halls, members of prefabricated halls and their joints, examples of various types of halls.
Steel structural systems:
Classification of cross-sections, compact and slender cross-sections, differences and basics of carrying capacity determination. Carrying capacity of compact cross-sections according to Eurocode, combination of bending-shear-tensions or compression, effect of shear on design carrying capacity. Planar loading in web of beam, local stress in web, comparative stress. Carrying capacity of slender cross-sections, effective cross-section. Braces of webs of beams – transverse braces, basics of structural solution and design. Steel hall buildings: layout solution, transverse tying, columns, spatial stiffness ensurance. Crane tracks generally, structural solution of crane tracks. Steel and steel-concrete framed structures: process layout, bracing, statical schemes. Anchorage of steel structures: types, structural solution of footings. Steel concrete structures: basics of usage, properties, steel-concrete beams, ceilings, columns. Thin-walled steel structures: cross-section shapes, effective cross-section.
Timber structural systems:
Planar structural members: beams, grids, trusses (lattice and web-plate). Planar frames and arches. Rafters. Braces of timber structures. Timber structures of buildings. Degradation of wooden materials.
Compulsory literature:
1. EN 1992-1-1 Eurocode 2: Design of concrete structures – Part 1: General rules and rules for buildings. CEN, Brussels.
2. EN 1993-1-1 Eurocode 3: Design of steel structures – Part 1: General rules and rules for buildings. CEN, Brussels.
3. EN 1993-1-8 Eurocode 3: Design of steel structures – Part 1: Design of joints. CEN, Brussels.
4. EN 1995-1-1 Eurocode 5: Design of timber structures – Part 1: Common rules and rules for buildings. CEN, Brussels.
Recommended literature:
1. Martin, L. H., Purkiss, J.A.: Concrete Design to EN 1992. Elsevier, 2006.
2. Silva, L.S. et al.: Design of steel structures, 2010 ISBN (ECCS) 978-92-9147-098-3, ISBN (Ernst & Sohn) 978-3-433-02973-2.
3. www.access-steel.com
4. Kuklík, P.: Timber Structures 10, CVUT Praha, 2007.
5. http://FAST10.VSB.CZ/TEMTIS/EN
Additional study materials
Way of continuous check of knowledge in the course of semester
written exams, semestral project, credit, exam
E-learning
Other requirements
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Prerequisities
Co-requisities
Subject has no co-requisities.
Subject syllabus:
Reinforced concrete structural systems:
Reinforced concrete multi storey buildings: Framed structural systems, Panel structural systems, structural systems from spatial members, loads, material, basics of statical solution, effect of character of member joints, bracing systems. Reinforced concrete halls: Loads, truss halls, non-truss halls, members of prefabricated halls and their joints, examples of various types of halls.
Steel structural systems:
Classification of cross-sections, compact and slender cross-sections, differences and basics of carrying capacity determination. Carrying capacity of compact cross-sections according to Eurocode, combination of bending-shear-tensions or compression, effect of shear on design carrying capacity. Planar loading in web of beam, local stress in web, comparative stress. Carrying capacity of slender cross-sections, effective cross-section. Braces of webs of beams – transverse braces, basics of structural solution and design. Steel hall buildings: layout solution, transverse tying, columns, spatial stiffness ensurance. Crane tracks generally, structural solution of crane tracks. Steel and steel-concrete framed structures: process layout, bracing, statical schemes. Anchorage of steel structures: types, structural solution of footings. Steel concrete structures: basics of usage, properties, steel-concrete beams, ceilings, columns. Thin-walled steel structures: cross-section shapes, effective cross-section.
Timber structural systems:
Planar structural members: beams, grids, trusses (lattice and web-plate). Planar frames and arches. Rafters. Braces of timber structures. Timber structures of buildings. Degradation of wooden materials.
Conditions for subject completion
Occurrence in study plans
Occurrence in special blocks
Assessment of instruction