Content, progress and pedagogy of the
- Have gained a comprehensive understanding of fracture
- Have gained knowledge in applying classical methods in
designing against fatigue fracture by studying notches and their
effect, by studying strain-fatigue, and by analysing eigen-stress
- Have gained an understanding of how to apply fracture mechanics
in the assessment of reliability of practical designs and machine
- Be able to assess the stability of cracks using Griffith’s and
Irwin’s fracture criteria, energy release rate, and toughness
- Be able to apply linear elastic solutions for sharp cracks and
obtain the stress intensity factor.
- Be able to assess mixed mode loading and apply crack growth
- Be able to assess crack growth by fatigue, partial damage and
- Be able to assess crack initiation, notches and their
- Be able to determine life time and apply methods for improving
the fatigue strength and life time of machine elements and welded
- Be able to understand and apply linear elastic concepts in
assessing the stability of cracked structures under static and
- Be able to distinguish between different fatigue regimes, i.e.
elastic or plastic, and un-cracked or pre-cracked, and apply
correct methodology to each case in relevant structures.
- Be able to determine the lifetime of welded components, and
explain fatigue in welded components on the basis of fracture
Type of instruction
The teaching is organized in accordance with the general form of
teaching. Please see the programme cirruculum §17.
Extent and expected workload
Since it is a 5 ECTS course module the expected workload is 150
hours for the student.
|Name of exam||Fracture Mechanics and Fatigue|
|Type of exam|
Written or oral exam
|Assessment||7-point grading scale|
|Type of grading||Internal examination|
|Criteria of assessment||The criteria of assessment are stated in the Examination