Author
Håkan Stille
Bio: Håkan Stille is an academic researcher from Royal Institute of Technology. The author has contributed to research in topics: Grout & Rock mass classification. The author has an hindex of 26, co-authored 89 publications receiving 1939 citations.
Papers published on a yearly basis
Papers
More filters
TL;DR: In this paper, a 1m-thick pillar was subject to coupled excavation-and thermal-induced stresses to induce brittle rock mass yielding, and the yielding strength of the heterogeneous and fractured Aspo diorite was evaluated at eighteen discrete locations using data from the displacement, acoustic emission and thermal monitoring systems.
133 citations
TL;DR: The possibilities of sealing structures are of great importance from both an economical and environmental point of view as discussed by the authors, and Grouting as a method of strengthening and sealing rock, soil and concrete is widely used.
121 citations
TL;DR: In this article, the grout penetration and grout take in parallell planar fractures are discussed and general expressions for these entities are also derived for fractures with varying width, and the applicability of the findings is evaluated using field data from grouting of the access tunnel of the Aspo Hard Rock Laboratory, Sweden.
117 citations
TL;DR: In this paper, the main types of rock engineering tools are briefly described, indicating their limits, and a matrix is presented showing their applicability to various types of ground behaviour, including gravity driven, stress induced and water influenced.
100 citations
TL;DR: In this paper, a closed form elastoplastic analytic solution of grouted bolts considering four different approaches to bolt performance was presented, and the analytical results were compared with bolt load data and readings obtained from instrumented bolts and extensometers in the Kielder Experimental tunnel excavated in mudstone.
100 citations
Cited by
More filters
1,571 citations
TL;DR: The Griffith theory of brittle failure provides a simplified model and a useful basis for discussion of this process as mentioned in this paper, and the Hoek-Brown failure criterion provides an acceptable estimate of the peak strength for shear failure but a cutoff has been added for tensile conditions.
Abstract: The initiation and propagation of failure in intact rock are a matter of fundamental importance in rock engineering. At low confining pressures, tensile fracturing initiates in samples at 40%–60% of the uniaxial compressive strength and as loading continues, and these tensile fractures increase in density, ultimately coalescing and leading to strain localization and macro-scale shear failure of the samples. The Griffith theory of brittle failure provides a simplified model and a useful basis for discussion of this process. The Hoek–Brown failure criterion provides an acceptable estimate of the peak strength for shear failure but a cutoff has been added for tensile conditions. However, neither of these criteria adequately explains the progressive coalition of tensile cracks and the final shearing of the specimens at higher confining stresses. Grain-based numerical models, in which the grain size distributions as well as the physical properties of the component grains of the rock are incorporated, have proved to be very useful in studying these more complex fracture processes.
430 citations
01 Jan 1986
TL;DR: In this paper, the effect of scale on the shear behavior of joints is studied by performing direct shear tests on different sized replicas cast from various natural joint surfaces, and it is shown that scale effects are more pronounced in the case of rough, undulating joints, whereas they are virtually absent for planar joints.
Abstract: The effect of scale on the shear behaviour of joints is studied by performing direct shear tests on different sized replicas cast from various natural joint surfaces. The result show significant scale effects on both the shear strength and deformation characteristics. Scale effects are more pronounced in the case of rough, undulating joint types, whereas they are virtually absent for planar joints. The key factor is the involvement of different asperity sizes in controlling the peak behaviour of different lengths of joints. It is shown that as a results both the joint roughness coefficient (JRC) and the joint compression strength (JCS) reduce with increasing scale. The behaviour of multiple jointed masses with different joint spacing is also considered. It is found that despite unchanged roughness, jointed masses consisting of many small blocks have higher peak shear strength than jointed masses with larger joint spacing. These scale effects are related to the changing stiffness of a rock mass as the block size or joint spacing increases or decreases. Economic methods for obtaining scale-free estimates of shear strength are described.
374 citations
28 Sep 2014
351 citations
TL;DR: In this paper, a database of 300 case histories of wall and ground movements due to deep excavations worldwide is presented, and a large database is used to extract case histories from these case histories.
Abstract: A database of some 300 case histories of wall and ground movements due to deep excavations worldwide is presented. Although recognizing the weakness in the approach, a large database is used to exa...
283 citations