Gerhard Hofmann scite author profile

Gerhard Hofmann

5Publications

82Citation Statements Received

87Citation Statements Given

How they've been cited

183

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Affiliations

AngloGold Ashanti (South Africa), Goethe University Frankfurt, Goethe Institute

Publications

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Simulating fault slip areas of mining induced seismic tremors using static boundary element numerical modelling

Hofmann

Scheepers

2011

Mining Technology

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Two mining induced tremors that occurred in a South African deep-level gold mine are considered, with the aim to simulate the shear slip area and source mechanism using static boundary element numerical modelling. Large seismic tremors, induced by the extraction of the tabular ore body typically 1 m high over horizontal spans of kilometres, are a major seismic hazard in South African gold mines. For the cases considered here, virgin stress levels are y54 MPa, and seismic related damage is mainly due to geological faults failing in shear under gravitational loading. The tremors occurred y2 km below surface, 700 m apart in space, and in consecutive months. Seismic recordings and underground observations suggested that the tremors, of local magnitudes 3?0 and 4?0 respectively, were associated with normal slip on similar geological faults. A boundary element numerical model was implemented to some degree of accuracy, since the fault geometries could be inferred from extensive mining spans and fault intersections, and an in situ stress state could be estimated from other available information. Furthermore, the rock mass stress changes and associated surface stress changes on faults could be modelled from monthly measured advance of the mining excavations. Simulation of the seismic sources entailed finding appropriate Mohr-Coulomb strength parameters to allow yielding of the faults at the actual mining stage, and quantitatively in agreement with the seismic moment as inferred from seismic waveform recordings. A critical input into the model was the use of non-zero cohesion in addition to friction angle as specified in the Mohr-Coulomb shear failure criterion, allowing the simulation of coseismic slip. Hence, the breaking of fault cohesion and subsequent stress transfer to the surrounding fault area is simulated, albeit statically, conforming to the perceived triggering of mining related seismic tremors by induced stress changes. The back analysis furthermore suggested that coseismic stope closure can comprise a significant part of the total recorded seismic moment, depending on the proximity of the hypocentre to mining excavations. From the back analysis a modelling methodology and input parameters are proposed, aiming at identifying vulnerable mining excavations subject to seismic hazard posed by geological structures, hence providing relevant knowledge towards safer mining.

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Determinants of Students' Interracial Behavior and Opinion Change

Patchen¹,

Davidson²,

Hofmann³

et al. 1977

Sociology of Education

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Interracial Perceptions Among High School Students

Patchen¹,

Hofmann²,

Davidson³

1976

Sociometry

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Mining-Induced Stress Transfer and Its Relation to a $$\text{M}_w$$ M w 1.9 Seismic Event in an Ultra-deep South African Gold Mine

Ziegler

Reiter

Heidbach

et al. 2015

Pure Appl. Geophys.

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On 27 December 2007 a M w 1.9 seismic event occurred within a dyke in the deep level Mponeng gold mine, South Africa. From the seismological network of the mine and the one from the JAGUARS group, the hypocentral depth (3509 m), focal mechanism and aftershock location was estimated. Since no mining activity took place in the days before the event, dynamic triggering due to blasting can be ruled out as the cause. To investigate the hypothesis that stress transfer, due to excavation of the gold reef, induced the event, we set up a small scale (450 × 300 × 310 m 3) high resolution 3D geomechanical-numerical model. The model consists of the four different rock units present in the mine: quartzite (footwall), hard lava (hanging wall), conglomerate (gold reef), and diorite (dykes). The numerical solution is computed with a finite element method, with a discretised mesh of approximately 10 6 elements. The initial stress state of the model is in agreement with in-situ data from a neigh

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Energieversorgung elektrischer Bahnen

Biesenack¹,

Braun²,

George³

et al. 2006

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Gerhard Hofmann

Simulating fault slip areas of mining induced seismic tremors using static boundary element numerical modelling

Determinants of Students' Interracial Behavior and Opinion Change

Interracial Perceptions Among High School Students

Mining-Induced Stress Transfer and Its Relation to a $$\text{M}_w$$ M w 1.9 Seismic Event in an Ultra-deep South African Gold Mine

Energieversorgung elektrischer Bahnen

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