Course Details
Application of Computer Technology in Design of Steel Structures (K)
Academic Year 2023/24
CO070 course is part of 1 study plan
N-P-C-SI (N) / K / KON Winter Semester 2nd year
Summary of computing systems for statical analysis, design and verification of whole structure and its components, including connections and joints.
Basic methods of computing models formation of real structures.
SCIA computing system: input data, calculation, result interpretation, dimensioning.
Individual tasks solving.
Basic methods of computing models formation of real structures.
SCIA computing system: input data, calculation, result interpretation, dimensioning.
Individual tasks solving.
Credits
5 credits
Language of instruction
Czech
Semester
winter
Course Guarantor
Institute
Forms and criteria of assessment
course-unit credit
Entry Knowledge
Static action of bearing systems, rules for design of steel structures. Metal structures - design of elements and connections of steel structures. Timber structures - design of elements and connections of timber structures.
Aims
The objective of the subject is to introduce students to the problems of this course and to practise acquires knowledge and skills.
Students have to manage the aim of the subject, make the acquaintance with course problematic and practice their knowledge and acquirements.
Students have to manage the aim of the subject, make the acquaintance with course problematic and practice their knowledge and acquirements.
Basic Literature
Kolář, V. a kol.: Výpočet plošných a prostorových konstrukcí MKP, Praha SNTL, 1974 (cs)
Recommended Reading
Aktuálně platné normativní dokumenty související s náplní předmětu. (cs)
Manuály k používaným programovým systémům. (cs)
Manuály k používaným programovým systémům. (cs)
Syllabus
1. Acquaint with computing systems for static analysis of construction. SCIA computing system – possibilities of application, examples of computing models of realized structures.
2. Elementary input data.
3. Structure geometry – planar model.
4. Structure geometry – spatial model.
5. Model – type of the supports, truss members, nodes.
6. Loading. Loading actions and their combinations.
7. Information about stability.
8. Computation. Evaluation of results.
9. Truss members dimensioning.
10. Non-linearity of computation.
2. Elementary input data.
3. Structure geometry – planar model.
4. Structure geometry – spatial model.
5. Model – type of the supports, truss members, nodes.
6. Loading. Loading actions and their combinations.
7. Information about stability.
8. Computation. Evaluation of results.
9. Truss members dimensioning.
10. Non-linearity of computation.
Prerequisites
Static action of bearing systems, rules for design of steel structures. Metal structures - design of elements and connections of steel structures. Timber structures - design of elements and connections of timber structures.
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. Acquaint with computing systems for static analysis of construction. SCIA computing system – possibilities of application, examples of computing models of realized structures.
2. Elementary input data.
3. Structure geometry – planar model.
4. Structure geometry – spatial model.
5. Model – type of the supports, truss members, nodes.
6. Loading. Loading actions and their combinations.
7. Information about stability.
8. Computation. Evaluation of results.
9. Truss members dimensioning.
10. Non-linearity of computation.
2. Elementary input data.
3. Structure geometry – planar model.
4. Structure geometry – spatial model.
5. Model – type of the supports, truss members, nodes.
6. Loading. Loading actions and their combinations.
7. Information about stability.
8. Computation. Evaluation of results.
9. Truss members dimensioning.
10. Non-linearity of computation.
Exercise
13 weeks, 1 hours/week, compulsory
Syllabus
1. Acquaint with computing systems for static analysis of construction.
2. Input data.
3.-4. Structure geometry.
5. Model – type of the supports, truss members, nodes.
6. Loading.
7. Information about stability.
8.-9. Computation. Evaluation of results.
10. Truss members dimensioning.
2. Input data.
3.-4. Structure geometry.
5. Model – type of the supports, truss members, nodes.
6. Loading.
7. Information about stability.
8.-9. Computation. Evaluation of results.
10. Truss members dimensioning.