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Faculty of Engineering Sciences
INFO Bachelor's Programme Civil and Environmental Engineering according to the Curriculum 2007 (180 ECTS-Credits, 6 semesters)
Third Semester
Compulsory Module 4: Module Strength of Materials (12.5 ECTS-Credits, 10 h)
Prerequisites for registration: none
Learning Outcome: Mastery of the determination of the tensions and malformations of deformable solid bodies, especially of poles, following static and thermal pressures; these findings form the basis for proving the serviceability and load-bearing capacity of building constructions.
844130
UE Strength of Materials 2 (UE / 2h / 2,5 ECTS-AP)
Nikolaus Fleischhacker, Rudolf Stark
Details of this course
INFO Bachelor's Programme Mechatronics according to the Curriculum 2011 (180 ECTS-Credits, 6 semesters)
Fifth Semester
Compulsory Module 21: Strenghts of Materials and Manufacturing Techniques (7.5 ECTS-Credits, 6 h)
Prerequisites for registration: Positive completion of studies induction and orientation stage (relevant course examinations)
Learning Outcome: Students - are familiar with the different types of tool machines and their fields of application. - are able to make simple NC programmes and to implement them on a tool machine. - know the theoretical fundamentals of the Finite Element Method and have the competence to apply numeric solving processes to tasks of mechatronics. - are able to safely assess the practical application possibilities and limits of these processes
844136
UE FEM - Linear Strength Analyses (UE / 2h / 2,5 ECTS-AP)
Andreas Brugger, Nikolaus Fleischhacker
Details of this course
INFO Master's Programme Civil Engineering according to the Curriculum 2014 (120 ECTS-AP, 4 Semester)
Elective Modules, Proficiency Level 1 (30 ECTS-Credits)
Concentration Option MOS: Modeling and Simulation (15 ECTS-Credits)
Elective Module MOS 1-2: Modelling and Simulation 1-2 (5 ECTS-Credits; 4 h)
Prerequisites for registration: none
Learning Outcome: Students are proficient in the theoretical principles of the finite element method (FEM) and can apply the FEM for linear calculation of the load-bearing capacity of structures and to solve problems relating to heat conduction and moisture transfer.
844136
UE FEM - Linear Strength Analyses (UE / 2h / 2,5 ECTS-AP)
Andreas Brugger, Nikolaus Fleischhacker
Details of this course