After successful completion of the course, students are able to...
by selection and application of basic material characterization techniques - X-Ray Diffraction, mechanical testing methods (tensile tests, hardness measurements on various length scales), thermal analysis techniques (DSC, DTA, or dilatometry) as well as Scanning Electron Microscopy as well as classical methods of metallography (just to mention a few) - solving independently material science specific problems (structure-property relationships) and subsequently to properly interpret the determined parameters! In addition, through a combinatorial usage of different methods specific statements should be confirmed!
Literature survey, experimental and theoretical investigations on engineering materials particularly regarding the relation: processing - micro-structure - properties - application and recycling; testing specific characterisation methods.
Combinatorial usage of diverse characterization techniques commonly used in materials science:
The topic regarding one type of material and/or one method of investigations will be executed as project containing experimental and theoretical parts. The progress will be controlled and supervised by the lecturers; intermediate reports will be presented. The results will be reported within a seminar lecture and as scientific report, both will be evaluated. Special literature will be stated during the experiments.
Can be executed in English, Spanish or German.
Topics: http://wwwt.tuwien.ac.at/
A list of currently available topics can be downloaded as pdf-File
The course assessment will be based on:
On appointment with the lecturers (by email)
Text books on engineering materials and materials science, relevant publications will be selected at registration
Master of a studying course containing materials science (equivalent to master)