Course Details
Static at Reconstructions (K)
Academic Year 2023/24
CL051 course is part of 1 study plan
N-P-C-SI (N) / K Winter Semester 2nd year
Definition and realisation of static investigation and static expertise. Diagnostic analyses of concrete and masonry structures and bridges. Loading capacity of concrete and masonry structures and bridges. Loading tests. Evaluation of possibilities of the building adaptation for improvement of the state and new utilisation. Modelling of the origin and new static scheme. Evaluation of a bearing structure and its members. Analyses of possible faults and solution of repairs at reconstruction. Necessity of respecting static conditions at reconstruction. Methods and static analysis of concrete and masonry structures and bridges strengthening. Strengthening of structures by composing and with bonding and prestressing reinforcement.
Course Guarantor
Institute
Objective
Understanding of the static approach to the reconstructions of engineering and building constructions. Types of faults and failures, their diagnostic methods.
Stability calculation and technical drawings of the reconstructed structures.
Stability calculation and technical drawings of the reconstructed structures.
Knowledge
A student gains these knowledge and skills:
• Understanding of the static approach to the reconstructions of engineering and building constructions.
• Understanding of the types of faults and failures and their diagnostic methods.
• Stability calculation and technical drawings of the reconstructed structures.
• Understanding of the static approach to the reconstructions of engineering and building constructions.
• Understanding of the types of faults and failures and their diagnostic methods.
• Stability calculation and technical drawings of the reconstructed structures.
Syllabus
1. Structure serviceability. Faults sources – monitoring and possibilities of their reduction. Method of diagnostic investigation of concrete and masonry structures and bridges.
2. Definition and methods of load-bearing capacity determination of concrete and masonry structures and bridges. Preparation, extent and methods of loading tests.
3. Conditions for realisation of reconstructions from the structural viewpoint. Methods of strengthening of concrete structures and bridges.
4. Methods of strengthening of masonry structures and bridges.
5. Strengthening of structures with free prestressing reinforcement – prestressing, injection and guniting, structural analysis.
6. Strengthening of bridges with incoherent prestressing reinforcement – structural solution and analysis.
7. Strengthening and reconstruction of structures using concrete, steel and timber.
8. Foundation reconstructions.
9. Structural solution of buildings extensions, superstructures and buildings-in.
10. Temporary provision of structures at reconstructions. Deformation of strengthened structures and its monitoring. Mortal improvement by injection. Application of glued carbon fibres.
2. Definition and methods of load-bearing capacity determination of concrete and masonry structures and bridges. Preparation, extent and methods of loading tests.
3. Conditions for realisation of reconstructions from the structural viewpoint. Methods of strengthening of concrete structures and bridges.
4. Methods of strengthening of masonry structures and bridges.
5. Strengthening of structures with free prestressing reinforcement – prestressing, injection and guniting, structural analysis.
6. Strengthening of bridges with incoherent prestressing reinforcement – structural solution and analysis.
7. Strengthening and reconstruction of structures using concrete, steel and timber.
8. Foundation reconstructions.
9. Structural solution of buildings extensions, superstructures and buildings-in.
10. Temporary provision of structures at reconstructions. Deformation of strengthened structures and its monitoring. Mortal improvement by injection. Application of glued carbon fibres.
Prerequisites
structural mechanics, concrete and masonry structures and bridges, prestressed concrete
Language of instruction
Czech
Credits
5 credits
Semester
winter
Forms and criteria of assessment
course-unit credit
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. Structure serviceability. Faults sources – monitoring and possibilities of their reduction. Method of diagnostic investigation of concrete and masonry structures and bridges.
2. Definition and methods of load-bearing capacity determination of concrete and masonry structures and bridges. Preparation, extent and methods of loading tests.
3. Conditions for realisation of reconstructions from the structural viewpoint. Methods of strengthening of concrete structures and bridges.
4. Methods of strengthening of masonry structures and bridges.
5. Strengthening of structures with free prestressing reinforcement – prestressing, injection and guniting, structural analysis.
6. Strengthening of bridges with incoherent prestressing reinforcement – structural solution and analysis.
7. Strengthening and reconstruction of structures using concrete, steel and timber.
8. Foundation reconstructions.
9. Structural solution of buildings extensions, superstructures and buildings-in.
10. Temporary provision of structures at reconstructions. Deformation of strengthened structures and its monitoring. Mortal improvement by injection. Application of glued carbon fibres.
Exercise
13 weeks, 1 hours/week, compulsory
Syllabus
1. Load-bearing capacity of a bridge: Calculation of load-bearing capacity according previously valid codes, models of vehicles.
2. Design of a bridge deck including its reinforcement.
3.- 4. Calculation of load-bearing capacity of a bridge structure.
5. Strengthening of the bridges: Strengthening of a deck by additional concreting.
6. Correction.
7. Strengthening of a deck with glued reinforcement.
8. Strengthening of a deck with unbond prestressing steel – arrangement of cable ducts, saddles and static behaviour.
9. Failures, modelling a strengthening of vaults.
10. Design submission. Credit.