Instructors: Prof. Dr. Rolf Mahnken M.Sc.
Event type:
Lecture
Org-unit: Maschinenbau
Displayed in timetable as:
TM2
Hours per week:
2
Language of instruction:
German
Min. | Max. participants:
- | -
Requirements and recommendations:
Basic knowledge of mathematics and statics
Aim of the event:
The lecture "Solid Mechanics" introduces the basic principles of solid mechanics.
Target group:
Students of industrial engineering, informatics, techno mathematics, physics and teaching qualification.
Contents:
The states of stress and strain are described in tensor notation. Both states are connected by a material law. The lecture continues with a systematic presentation of the basic stresses tension/ compression, bending, shear and torsion. This is followed by the analysis of combined stresses. Statically indeterminate problems and elastic stability problems are considered. In weekly exercises the students learn to apply the principles to concrete technical problems. Contents: Part II "Solid Mechanics" 1. Basic terms of elastic theory: state of stress, state of strain, Hooke's law 2. Thermal stress 3. Basic stresses: central tension/compression, straight and oblique bending without shear forces, shear, torsion 4. Statically indeterminate systems 5. Combined stresses: failure theories, determination of equivalent stresses 6. Stability problems: Euler buckling-load formulas
Contact person:
Prof. Mahnken
Literature:
Müller/ Ferber: Technische Mechanik für Ingenieure mit mechANImateach, das Buch mit CD-ROM, Carl Hanser Verlag zweite Auflage 2004 Müller/ Ferber: Übungsaufgaben zur Technische Mechanik, das Übungsbuch, Carl Hanser Verlag 2004 Gross/Hauger/Schnell: Technische Mechanik 1, Springer Verlag 1990 Neuber: Technische Mechanik, Teil 2, Berlin - Heidelberg - New York, 1971 Leipholz: Festigkeitslehre für den Konstrukteur, Berlin - Heidelberg - New York, 1969 http://mb-s1.upb.de/LTM/TM_1-2/
Supplementary events:
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