Design of Reinforced Concrete Structures 2 (5 ECTS)

Objective

On completion of the course, the student
• can design one-way and two-way slabs, slabs on ground, a wall, a wall like beam, stairs, footings, a beam subjected to torsion and retaining walls of reinforced concrete
• can carry out fire protection design of reinforced concrete by using tables
• understands the principles of the strut-and-tie method
• can make a building information model for an in-situ concrete structure and produce form work and reinforcement drawings from it.

Content

• Reinforced concrete slabs
• Reinforced concrete walls
• Reinforced concrete columns
• Wall-like beams
• Design of a beam against torsion
• Reinforced concrete footings and retaining walls
• Fire protection design of reinforced concrete
• Strut-and-tie method
• Creating a building information model for a reinforced concrete structure

Evaluation scale

0-5

Assessment criteria, satisfactory (1)

The student is able to
• explain the behaviour of one and two-way reinforced concrete slabs
• design the main reinforcement of a one-way slab in ULS
• design the minimum reinforcement of a column
• design the reinforcement of a wall-like beam
• explain the design principles against punching
• explain how splitting forces are formed
• determine the load-bearing capacity of a column from tables
• create a building information model for a simple building with an in-situ reinforced concrete frame.

Assessment criteria, good (3)

In addition to the above, the student is able to
• design a reinforced concrete beam subject to torsion
• design a reinforced concrete column in ULS
• design usual reinforced concrete structures, such as one or two-way slabs, slabs on ground, foundations, retaining walls
• explain how splitting forces are formed, calculate the force in a given situation and design a structure against splitting force
• determine the fire-resistance period of reinforced concrete structures by using tables
• create a building information model for a building with an in-situ reinforced concrete frame in more demanding cases.

Assessment criteria, excellent (5)

In addition to the above, the student is able to
• define the torsional force of a structure
• design various reinforced concrete structures, such as walls, slabs, wall like beams, footings, corbels
• design details of reinforcement for shrinkage crack control, suspended reinforcement, structures with partially compressed areas and cut-off points of slab reinforcement
• perform calculations for simple structures using the strut-and-tie method.

Assessment criteria, approved/failed

The student is able to
• explain the behaviour of one and two-way reinforced concrete slabs
• design the main reinforcement of a one-way slab in ULS
• design the minimum reinforcement of a column
• design the reinforcement of a wall-like beam
• explain the design principles against punching
• explain how splitting forces are formed
• determine the load-bearing capacity of a column from tables
• create a building information model for a simple building with an in-situ reinforced concrete frame.

Qualifications

Statics, Basics of Structural Mechanics, Isostatic Structures, Design of Reinforced Concrete Structures 1, Concrete Technology 1, Basics of Structural Design, Basics of BIM