Technical Mechanics 1 for Industrial Engineers

Offered for

Industrial Engineers

Rotation of the course

The course is offered every winter semester. The exam is offered in both the winter and summer semesters.

Information about the course

Content

Statics

• Rigid body, forces, momentum, cutting principle
• Balance of forces and momentum
• Calculation of external and internal forces: support reactions and cutting sizes
• Centers of ares and lines
• Multi-part structures
• Rod structures
• Friction

Theory of Strength

• Stresses and stretching
• Hook's law
• States of tension
• Second law of moment of area
• Bending
  - Bending stresses
  - Bending line
• Torsion
  - Shear stresses
  - Shear deformations
• Equivalent stress
• Component dimensioning

Scope

2 Lectures/ 1 Practice / 0 practical trainings

Certificate of achievement

written exam (120 min), 4,5 CP

Lecture and exercise schedule

Lecture: Monday, 3. lesson ZEU/LICH

Practice: Monday, 5. lesson ZEU/250 and ZEU/255

Exercise plan:

Exercise 1: Tasks 1.1.1 / 1.1.2 / 1.1.3 / 1.1.4

Exercise 2: Tasks 1.1.6 / 1.1.7 / 1.1.9

Exercise 3: Tasks 1.2.5 / 1.2.7 / 2.1 / 2.3

Exercise 4: Tasks 4.11 / 3.3 / 3.5 / 3.12

Exercise 5: Tasks 3.19 / 3.15 / 8.10 / 5.1

Exercise 6: Tasks 9.1 / 9.4 / 1.5

Exercise 7: Tasks 4.2 / 4.19 / 3.4 / 3.8

Literature

Balke: Einführung in die Technische Mechanik - Statik, Springer-Verlag GmbH Heidelberg, 2010

Balke: Einführung in die Technische Mechanik - Festigkeitslehre, Springer-Verlag GmbH Heidelberg, 2014

Franeck: Starthilfe Technische Mechanik, BG Teubner Verlagsgesellschaft Stuttgart, Leipzig

Hahn: Technische Mechanik fester Körper, Hanser-Verlag München

Dankert/Dankert: Technische Mechanik computerunterstützt, BG Teubner Verlagsgesellschaft Stuttgart, Leipzig

Göldner/Holzweißig: Leitfaden der Technischen MechanikFachbuchverlag Leipzig, 1997