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Course detail

Building Constructions 2 (K)

Course unit code: FAST-BH012
Academic year: 2017/2018
Type of course unit: compulsory
Level of course unit: Bachelor's (1st cycle)
Year of study: 4
Semester: winter
Number of ECTS credits:
Learning outcomes of the course unit:
Test examination on building constructions and debate.
Mode of delivery:
90 % face-to-face, 10 % distance learning
Prerequisites:
Knowledge of building constructions, descriptive geometry; structural mechanics, elasticity and strength; geodesy; static design; concrete structures, steel and wooden structures, building materials, soil mechanics; machinery of building site, foundation engineering, geology.
Co-requisites:
Not applicable.
Recommended optional programme components:
Not applicable.
Course contents (annotation):
Lectures are aimed on basic construction of buildings in relation to the principles of static and commonly used building materials such as methodological guidance on the concept of creating a composition design simple buildings. This is an expansion and deepening of basic information on building construction including principles for their application to the design of the works in the application of knowledge from previous studies related subjects.
Recommended or required reading:
Not applicable.
Planned learning activities and teaching methods:
Not applicable.
Assesment methods and criteria linked to learning outcomes:
Not applicable.
Language of instruction:
Czech
Work placements:
Not applicable.
Course curriculum:
1. Foundations – setting of the building into the terrain, subsoil and ground works, shallow foundations, basements, damp proof courses and waterproofing, deep foundations.
2. Vertical load-bearing constructions – walls, masonry systems, building stability and structural strength, load-bearing walls from bricks and blocks, precast panel block buildings.
3. Masonry – strength, reinforced rims, precast and monolithic lintels, mounted walls from prefabricated panels, combined precast
and monolithic wall technology.
4. Horizontal load-bearing constructions – static stability and design rules, reinforced concrete floor structures completed in monolithic, prefabricated or combined technology, wooden floor structures.
5. Overhangs and recessive constructions - static scheme and design, cornices, balconies, loggia, bay windows, sun shadings, attics, recessive slabs.
6. Structural design of the single-story and multi-story buildings, stability and strength.
7. Skeleton systems – prefabricated, monolithic or combined technology, floor structures in skeleton buildings.
8. Staircase in skeleton systems, – variations, details of constructional joints.
9. Constructions for connection of different floor levels – static schemes and design rules for staircases, ramps, transport shafts, ladders, lifts and elevators.
10. Load-bearing structures of roofs – roof truss systems; wooden, reinforced concrete, steel trusses, static schemes.
11. Details of the roof truss, flat roof single leaf and double leaf roofs; flat roof compositions.
12. Vertical non-bearing constructions – partitions and external claddings – brick walls, monolithic or prefabricated walls, design rules and technology.
13. Completive constructions – windows, chimneys, banisters and railing, surface finishing, floor finishing, soffits – dilatation and movement joints, facing details.
Aims:
The course is focused on the study concept of the project documentation completed on the basis of fundamental knowledge about building constructions. The design of the convenient load-bearing structural concept of a middle-sized building is the main task. The building is determined by the architectural disposition study and assignment of outdoor conditions of the building site. The study of the project in the stage of the documentation for the building planning permission is the compulsory work for the course examination.
Specification of controlled education, way of implementation and compensation for absences:
Extent and forms are specified by guarantor’s regulation updated for every academic year.

Type of course unit:

Lecture: 26 hours, optionally
Teacher / Lecturer: Ing. Radim Smolka, Ph.D.
seminars: 26 hours, compulsory
Teacher / Lecturer: Ing. Radim Smolka, Ph.D.

The study programmes with the given course