After successful completion of the course, students are able to design a material for a given application, i.e. bearing a set of properties required for the application. This includes the capability (i) to conceive the synthesis of a desired material, (ii) conceive the processing of a desired material.
Ultimate learning goal: At the end of this lecture, the students shall be able to design a material for a given application, i.e. bearing a set of properties required for the application. This includes the capability (i) to conceive the synthesis of a desired material, (ii) conceive the processing of a desired material.
Intermediate learning goals: At the end of the lecture, the students shall
Chapter1: Basics of materials (definitions of materials; materials properties; structure-property relationships)
Chapter2: Synthesis of bulk materials (crystalline vs. amorphous solids; synthesis of crystalline solids from solution/melt/gas/solid state; synthesis of amorphous solids from solution/melt/gas/solid state)
Chapter3: Structuring of materials (nano- and microstructuring; porous materials)
Chapter4: Combination of materials (hybrids, composites)
-- Planning a material synthesis procedure
-- Discussion excercises
The teaching materials (lecture slides, papers, etc.) will be available after the lecture on TUWEL (https://tuwel.tuwien.ac.at/course/view.php?id=60851). All lextures will take place at Seminar room Lehar 01
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For questions, please write to dogukan.apaydin@tuwien.ac.at!
Assessment is performed via oral exam and participation in the course.