After successful completion of the course, students are able to...
The course covers the following topics:
An introduction to the basic concepts of rock mechanics will be given, exploring the importance of distinguishing between rock and rock mass. Essential laboratory tests and field tests to determine parameters of rock mechanics are explained. Different methods for rock mass classification, which are influenced by these parameters are presented.
Various options for the calculation of tunnel structures, possibilities for assessing the slope-stability in rock engineering and the concept of the ‘observational method’ used in Austria are explained. Furthermore, the principle of operation for different types of anchors is discussed and state of the art construction methods for both slopes in rock masses and tunnels are outlined.
Introduction to basics of rock mechanics and rock mechanics related issues. Rock mass classification systems and options for the calculation of tunnel structures and specific failure mechanisms of slopes in rock engineering are discussed. Common construction methods for tunnels and slopes in rock masses are presented. Simple numeric examples can be solved with the knowledge provided in this lecture.
Lecture mode in winter semester 2022:The course will be held in presence in the winter semester 2022. In case the holding of lectures in presence is no longer permitted due to the requirements of the Federal Government or the TU Wien, a change to an online-mode is carried out.Examination mode in winter semester 2022:Written exams will be held in presence. In case the holding of examinations in presence is no longer permitted due to the requirements of the Federal Government or the TU Wien, a change to "written online paper exams" is carried out. Examination duration and assessment scheme remain unaffected. In this context, please refer to the COVID-19 Distance Examination Regulations of the Research Unit of Ground Engineering, Soil and Rock Mechanics.
Written exam with open theoretical questions and numerical rock mechanics related examples (Basics of rock mechanics, slope stability).
Not necessary
Grundbau und Bodenmechanik