[ 245MALEFKLV20 ] VL Strength of materials

Es ist eine neuere Version 2023W dieser LV im Curriculum Bachelor's programme Sustainable Polymer Engineering & Circular Economy 2023W vorhanden.
Workload Education level Study areas Responsible person Hours per week Coordinating university
3 ECTS B2 - Bachelor's programme 2. year (*)Maschinenbau Martin Schagerl 2 hpw Johannes Kepler University Linz
Detailed information
Original study plan Bachelor's programme Mechanical Engineering 2022W
Objectives Students know and understand the basic methods of strength assessment of mechanically loaded structural parts and materials. They are proficient in analyzing simple structural elements of machines, devices or plants, and are able to calculate whether the structural parts and materials can resist the applied static and dynamic loads, i.e. do not fail due to fracture and do not suffer damage due to deformation.
Subject Material behavior and constitutive laws (plasticity, hardening, statistic nature of strength behavior, strength hypotheses); Selected examples of deformation analysis and stress analysis (notch sensitivity, residual stresses, bearing pressure); Foundations of fatigue strength analysis (Wöhler experiments, damage accumulation, counting methods for load spectra); Foundations of fracture mechanics (K-concept, fracture toughness, crack growth); Foundations of stability analysis (column buckling, snap through behavior, sensitivity to imperfections)
Criteria for evaluation Written exam (calculation examples, working time 60 minutes) and oral exam
Methods Slide lecture. As lecture notes the PowerPoint-slides are provided for download. Additional explanations and calculation examples are carried out at the black board.
Language German
Study material V. Läpple, Einführung in die Festigkeitslehre, Vieweg+Teubner Verlag, 4th edition, 2016; H. Mang und G. Hofstetter, Festigkeitslehre, Springer Vieweg, 5th edition, 2018; J. Wittenburg and E. Pestel, Festigkeitslehre – Ein Lehr- und Arbeitsbuch, Springer-Verlag Berlin Heidelberg, 3rd edition, 2011; D. Radaj and M. Vormwald, Ermüdungsfestigkeit – Grundlagen für Ingenieure, Springer-Verlag Berlin Heidelberg, 3rd edition, 2007; D. Gross and T. Seelig, Bruchmechanik – Mit einer Einführung in die Mikromechanik, Springer Vieweg, 6th edition, 2016
Changing subject? No
Further information Previous attendance of the course "Technical Mechanics 2" (VL+UE) is required.
On-site course
Maximum number of participants -
Assignment procedure Assignment according to priority