Departments' graduate courses
Course start and periodicity may vary. Please see details for each course for up-to-date information. The courses are managed and administered by the respective departments. For more information about the courses, how to sign up, and other practical issues, please contact the examiner or course contact to be found in the course information.
Damage and fracture mechanics
- Course code: FTME125
- Course higher education credits: 7.5
- Department: INDUSTRIAL AND MATERIALS SCIENCE
- Graduate school: Solid and Structural Mechanics
- Course is normally given: Course is normally given every uneven year starting from 2013 in quarter 1
- Language: The course will be given in English
- Nordic Five Tech (N5T): This course is free for PhD students from N5T universities
The purpose of the course damage and fracture mechanics is to give an overview of how to model and simulate problems involving material deterioration and fracture using finite element technology. This scientific area of solid mechanics is central in all our active fields. We mention: railway mechanics, process modeling of machining, crash modeling of composites, and material mechanics.
To describe material and structural deterioration, the course focuses on the generic concepts of continuum damage and fracture modeling based on the cohesive zone concept. From the kinematical viewpoint, material damage evolution is related to the development of continuous deformation, and discontinuous deformation development is related to the actual fracture process. Since damage and fracture mechanics are two correlated theories, the overall picture is outlined in the beginning of the course, and thereafter specific concepts are taken up. In the end of the course, proposals to unify the concepts continuum damage and cohesive zone development are discussed.
The course consists of a number of scientific topics related to damage and fracture modeling. In parts of these developments our group has been involved. Lecture notes will be provided. References to papers and books will be given. A detailed course outline will be provided in the pingpong system where papers references will be given. In particular, concerning the developments on continuum damage modeling we refer to the book .  Jean Lemaitre and Rodrigue Desmorat, Engineering Damage Mechanics: Ductile, Creep, Fatigue and Brittle Failures, Springer 2005.