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Faculty of Chemistry and Pharmacy
Master's Programme Functional Materials Science according to the curriculum 2025 (120 ECTS-Credits, 4 semesters)
Compulsory modules in the disciplines of Inorganic Chemistry, Physical Chemistry, Mineralogy, Pharmaceutical Technology, Physics, Materials Technology and Theoretical Materials Science (65 ECTS-Credits) as well as Compulsory Modules Preparation of the Master's Thesis (7.5 ECTS-Credits) and Master's Thesis Defence (2.5 ECTS-Credits).
Compulsory Modules (75 ECTS-Credits)
Compulsory Module 5: Mechanical Properties (5 ECTS-Credits, 3 h)
Prerequisites for registration: none
Learning Outcome: The students are able to
ad a.: explain basic concepts of materials mechanics, including stress and strain tensors and constitutive laws for modelling elastic, time-dependent and inelastic material behaviour, and link these to processes at the atomic and molecular scale.
ad b.: experimentally apply mechanical testing methods to characterise the elastic, plastic and damage-relevant behaviour of materials under static, cyclic and dynamic loading, determine material parameters from test data and interpret the results in a differentiated manner using statistical methods.
ad a.: explain basic concepts of materials mechanics, including stress and strain tensors and constitutive laws for modelling elastic, time-dependent and inelastic material behaviour, and link these to processes at the atomic and molecular scale.
ad b.: experimentally apply mechanical testing methods to characterise the elastic, plastic and damage-relevant behaviour of materials under static, cyclic and dynamic loading, determine material parameters from test data and interpret the results in a differentiated manner using statistical methods.
INFO
Master's Programme Materials Sciences and Nanosciences according to the curriculum 2008 (120 ECTS-Credits, 4 semesters)
Compulsory Modules (72.5 ECTS-Credits)
Compulsory Modules in the disciplines Inorganic Chemistry, Physical Chemistry, Mineralogy, Pharmaceutical Technology, Physics, Ion Physics, Building and Engineering Sciences and Theoretical Materials Sciences.
Compulsory Module 5: Mechanical Properties (5 ECTS-Credits, 3 h)
Prerequisites for registration: none
Learning Outcome: Students are able to characterise the structure and micro-structure of materials and the resulting mechanical properties. Moreover, they learn about the underlying chemical and physical processes in the production process and the resulting possibilities of a targeted manipulation of mechanical material behaviour. They are able to apply experimental methods for recording microstructures and determining mechanical parameters.