Opinto-opas

Objective

On completion of the course the student can
- recognise the difference between concrete structures, reinforced concrete structures and stressed concrete structures
- explain the material properties of reinforced concrete and reinforcement steel
- determine the needed concrete cover according to durability requirements and functional demands
- calculate the needed reinforcement based on bending moment for a beam cross section
- select the required main reinforcement for a beam based on calculations
- calculate the required shear reinforcement for a beam cross section
- choose the required shear reinforcement for a beam cross section
- calculate the shear capacity of a beam cross section with no shear reinforcement
- calculate the minimum reinforcement of a cross section
- calculate the required anchoring length of bars
- calculate required lap length of bars.

Content

1. Concrete as a construction material
2. Concrete frame types
3. Properties of concrete and reinforcement steel
4. Interaction of concrete and reinforcement
5. Structural functioning of a reinforced concrete beam
6. Design of a reinforced concrete beam under bending moment and determining required reinforcement
7. Designing reinforcement of a beam in compliance with SFS-EN 1992-1-1
Prerequisites
Statics, Basics of Structural Mechanics, Concrete Structures – materials and execution technologies and Basics of Structural Design
Further information

Further information

Toteutus on tarkoitettu niille opiskelijoille, jotka ovat osallistuneet aikaisempaan toteutukseen, mutta eivät ole vielä läpäisseet opintojaksoa hyväksytysti.

Tällä toteutuksella voi myös korvata työnjohto-opiskelijoiden opintojakson Betonirakennetekniikka. Osallistumisoikeus edellyttää, että opiskelija ei ole sitä suorittanut hyväksytysti, vaikka on osallistunut aikaisemmalle toteutukselle.

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

On completion of the course the student can
- explain typical applications of reinforced concrete and frame types
- calculate without problems bending moments and shear forces on a simply supported beam when subjected to simple loading
- define design strengths of reinforcement and concrete
- define the exposure class of a member
- calculate the required concrete cover in compliance with SFS-EN 1992-1-1
- define the effective depth of a member
- explain the different failure modes of a reinforced beam
- calculate the required reinforcement of a beam member in ULS
- prepare the reinforcement drawing of a beam.

Assessment criteria, good (3)

In addition to the previous criteria, the student can
- calculate the shear capacity of a beam cross section with no shear reinforcement
- calculate the shear capacity of a member having shear reinforcement and define adequate shear reinforcement.

Assessment criteria, excellent (5)

In addition to mastering the previous skills excellently, the student can
- calculate the anchorage length for main reinforcing bars
- calculate the lap length for main reinforcing bars
- define optimal reinforcement for each section of a beam according to the moment and shear force distribution.

Assessment criteria, approved/failed

On completion of the course the student can
- explain typical applications of reinforced concrete and frame types
- calculate without problems bending moments and shear forces on a simply supported beam when subjected to simple loading
- define design strengths of reinforcement and concrete
- define the exposure class of a member
- calculate the required concrete cover in compliance with SFS-EN 1992-1-1
- define the effective depth of a member
- explain the different failure modes of a reinforced beam
- calculate the required reinforcement of a beam member in ULS
- prepare the reinforcement drawing of a beam.

Qualifications

Statics, Basics of Structural Mechanics, Concrete Structures – materials and execution technologies and Basics of Structural Design

Further information

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