On Linear-Elastic, Cross-Anisotropic Rock


Book Description

English summary: Rocks composed of parallel layers are cross-anisotropic materials. This thesis describes a new approximate solution for the determination of the properties of these materials based on mold cavity expansion experiments. German description: Gesteine, die aus parallelen Schichten bestehen, sind quer-anisotrope Materialien. Die Disseration beschreibt eine neue Naherungslosung zur Bestimmung der Eigenschaften solcher Materialien, basierend auf Hohlraumaufweitungs- Versuchen. Daten aus Radialpressversuchen dienen der inversen Analyse des Problems. Wenn der innere Druck, der Radius des Hohlraums, die Orientierung der Schieferung und die Verschiebungen bekannt sind, ergibt die Naherungslosung Materialparameter-Kombinationen, die die gemessenen Verschiebungen gut abbilden. Die Losung ist jedoch nicht eindeutig. Dreidimensionale Finite Elemente Modellierung wird in dieser Arbeit verwendet, um Hohlraumaufweitung in linear-elastischem, quer-anisotropem Gestein zu simulieren. Eine numerische Untersuchung wird durchgefuhrt, um das Modell richtig zu etablieren (Randbediengungen, Grosse des Diskretisierungsbereichs usw.) und die moglichen Einflussgrossen (z. B. Genauigkeit der Bestimmung der Schieferungsorientierung) zu beurteilen. Die Ergebnisse der Feldmessungen werden dann mit den numerisch berechneten radialen Verschiebungen der Hohlraumwand verglichen. Letztere entstehen durch die Implementierung von Materialparametern, die aus der genannten Naherungslosung zuruckgerechnet werden. Ahnlichkeiten und Unterschiede werden beschrieben und erklart. Eine alternative Methode zur Ermittlung des Verhaltens von quer-anisotropen Materialien mittels kleinmassstablicher Hohlraumaufweitungs-Laborversuche in einem kunstlichen queranisotropen Material ist ebenfalls erwogen worden. Der Aufbau und die Prinzipien eines solchen Versuchs werden beschrieben und dessen Ausfuhrbarkeit wird untersucht.




Rock Mechanics in Civil and Environmental Engineering


Book Description

During the last two decades rock mechanics in Europe has been undergoing some major transformation. The reduction of mining activities in Europe affects heavily on rock mechanics teaching and research at universities and institutes. At the same time, new emerging activities, notably, underground infrastructure construction, geothermal energy develo




A Primer on Theoretical Soil Mechanics


Book Description

An in-depth, comprehensible approach to theoretical soil mechanics and an introduction to the new theory of barodesy.




Advances in Energy, Environment and Materials Science


Book Description

The 2016 International Conference on Energy, Environment and Materials Science (EEMS 2016) took place on July 29-31, 2016 in Singapore. EEMS 2016 has been a meeting place for innovative academics and industrial experts in the field of energy and environment research. The primary goal of the conference is to promote research and developmental activities in energy and environment research and further to promote scientific information exchange between researchers, developers, engineers, students, and practitioners working all around the world. The conference will be organized every year making it an ideal platform for people to share views and experiences in energy, environment and materials science and related areas.




Rock Anisotropy and the Theory of Stress Measurements


Book Description

Any undisturbed rock mass is subject to natural stresses inclu ding gravitational stresses due to the mass of the overburden and possibly tectonic stresses due to the straining of the earth's crust and remanent stresses due to past tectonism. Knowledge of the in situ stress field must be integrated into any rock engineering design along with general rock mass characteristics such as de for mability, strength, permeability and time dependent behavior. For example, the choice of optimum orientation and shape of deep underground caverns or complex underground works will be controlled by the orientation and the magnitude of the in situ stress @ield if it is necessary to minimize stress concentration problems. Long term variation of the in situ stress field may also help to evaluate the potential hazard of earthquake occurences. The magnitude and orientation of the stress field ata point within a rock mass can be measured but there is no known method by which the state of stress at a point can be accurately determined by instruments located remotely. In general, measurements are made inside boreholes, on outcrops or on the internal surfaces of under ground cavities. Most of the measuring techniques intentionally disturb the state of stress in the rock and then measure consequent strains and displacements. Measured strains or displacements are then related to the stresses through assumptions of material behavior. A common procedure is to assume that the rock mass is linearly elastic, isotropic, continuous and homogeneous.




Applications and developments of Barodesy


Book Description

Barodesy is a constitutive model for granular materials such as sand and clay. It is based on the asymptotic behaviour of granular media at a constant deformation rate. In this work the existing sand version of Barodesy is improved. For this purpose, the underlying scalar equations are simplified using different concepts from soil mechanics. The improved version is also compared with laboratory tests and different elastoplastic and hypoplastic constitutive relations. Also the stability of slopes and advanced stress paths such as the rotation of the princple stresses are investigated with these models.




Development of Soft Particle Code (SPARC)


Book Description

This work aims at developing a numerical simulation method, Soft PARticle Code (SPARC). The term textit soft emphasizes that no boundaries between particles are defined and every particle possesses a support consisting of a set of adjacent particles. The polynomial interpolation/approximation method is utilized for the evaluation of spatial derivatives using the information carried by particles in supports. The system of equations consisting of spatial derivatives is solved using an iterative nonlinear solver and the computation of the Jacobian matrix is parallelized. The simulations of laboratory tests have been carried out to show the applications and limitations of the current version of SPARC. In addition to the simulations, laboratory (zig-zag) model tests using fine sand were carried out, in which the cyclic tilt of a retaining wall induces a peculiar motion in the backfill (sand), with closed trajectories (eddies).




Barodesy and its Application for Clay


Book Description

Barodesy is a constitutive model for granular materials. It is based on proportional strain and stress paths and the asymptotic behaviour of soil. In this work, an existing relation for proportional strain paths and proportional stress paths is further developed. A modification of barodesy to model clay behaviour is introduced. Common concepts of soil mechanics, such as critical states, barotropy and pyknotropy are comprised.




Analysis and Design Methods


Book Description

Analysis and Design Methods




Progress in Civil, Architectural and Hydraulic Engineering IV


Book Description

The International Conference on Civil, Architectural and Hydraulic Engineering series provides a forum for exchange of ideas and enhancing mutual understanding between scientists, engineers, policymakers and experts in these engineering fields. This book contains peer-reviewed contributions from many experts representing industry and academic es