Print

Steel Structures

Code

CE-STU1

Version

4.0

Offered by

Civil Engineering

ECTS

5

Prerequisites

Basic knowledge about structural design and steel design, which includes as minimum
• Global stability in buildings.
• Statical analysis and the connection between structures and static calculations.  
• Determine loads on buildings and structures according to Eurocodes
• Basic static for beams, columns and frames.
• Basic principles and methods of the elastic strength of materials and deformation calculations
• Stress analysis of structural elements
• Have knowledge about cross-sectional capacity checks for steel according to Eurocode 3

Main purpose

The course builds upon the basic principles of structural steel developed in the previous courses at the programme. The aim of the course is to enable the student to create structural steel systems and undertake calculations of load bearing steel structures, including connections in ultimate limit state and serviceability limit state.

Knowledge

After completion of the course, the students must:
–  Have knowledge about different types of steel structures (e.g. industrial buildings, hangars).
– Have knowledge about the principles for calculation of plate elements with stiffeners and be able to calculate a chosen few.
– Have knowledge about the resistance of transverse forces (design resistance of webs in plate girders).
– Have knowledge about flange induced web buckling.
– Have basic knowledge of fire design for structural steel.
– Have knowledge of various steel connection types.
– Have a basic understanding of load transfer in steel connections.

Skills

After completion of the course, the students must:
–  Be able to model globally stable structural steel systems.
–  Be able to calculate buckling of plates, eg. in welded plate girders.
–  Be able to calculate cross sections in class 4 using the effective cross section in the ultimate limit state.
–  Be able to calculate a plate girder with respect to lateral torsional buckling.
– Analysis of bracing systems which are required to provide lateral stability of beams and compression members (eg. columns).
–  Be able to calculate restraint in structural parts subject to compression.
– Be able to analyse/calculate some chosen structural steel connections (eg. welded connections in portal frames, design tension resistance of a T-stub flanges in plate girders).

Competences

After completion of the course, the student must be able to use knowledge and skill within all subject areas to plan and make relevant choices of techniques and theories in order to solve structural design project.

Topics

 

Teaching methods and study activities

The course is scheduled for 12 weeks with 4 lectures each week. Workload for the students corresponds to 138-hour.
Activities vary between theoretical lectures, self-studies, consultation periods in connection to the work with assignments and students presentation of assignments.

Resources

– Textbook for steel structures: To be stated later
– DS/EN 1993-1-5, Eurocode 3 – Design of steel structures – Part 1-5: Plated structural elements
– DS/EN 1993-1-1, Eurocode 3: Design of steel structures
– Part 1-1: General rules and rules for buildings
– DS/EN 1993-1-8, Eurocode 3: Design of steel structures
– Part 1-8: Design of joints
– Teknisk Ståbi 21. udgave. Teknisk Forlag
– Supplementary lecture notes  for the semester on the internal network for the course.
Results from national and international research and development works will be used.

Evaluation

 

Examination

Exam prerequisites
Eight out of ten course assignments must be handed in and approved.
If the exam prerequisite is not met, the student must submit new course papers within the same subject to qualify for the re-exam.

Type of exam
Oral exam, 25 minutes incl. grading. 
Internal assessment.

Tools allowed
None  

Re-exams:
Same as the ordinary exam.​

Grading criteria

Grading based on the Danish​ 7-point scale.

Additional information

 

Responsible

Ivaylo Ivanov

Valid from

01-08-2023 00:00:00

Course type

Keywords

Types of steel structures, plate girders, bracing systems for compression members, steel connections, fire resistance