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  • DFI
    Numerical Analysis of CFA Piles for High-Rise Building of Administrative Centre Lakeside Park in Bratislava

    By J. Stacho, Frankovská. J.

    "Abstract The use of continuous flight auger (CFA) piles in Slovakia has increased significantly in recent decades. High-rise building of administrative centre Lakeside Park in Bratislava is based on

    Jan 1, 2014

  • DFI
    Numerical Analysis Of Load Bearing Capacity Of Drilled Shafts With Defects

    By Khamis Y. Haramy

    Quality assurance and quality control of drilled shafts has become a concern due to difficulties in accurately locating construction anomalies and determining load bearing capacity of defected drilled

    Jan 1, 2007

  • SME
    Numerical Analysis Of Longwall Subsidence Effects On Escarpment Stability

    By V. A. Shea-Albin

    Sandstone escarpments surrounding western coal-bearing plateaus serve as critical habitat for animal species. Effects of mining subsidence on escarpment stability are not well documented; therefore, r

    Jan 1, 1994

  • DFI
    Numerical Analysis of Pile-Supported T-Walls Subject to Large Settlements and Flood Loading

    By Alexander B. Reeb, Richard J. Varuso, George M. Filz, Jehu B. Johnson

    "T-walls, which are concrete floodwalls in an inverted “T” shape, are an integral component of the Greater New Orleans Hurricane and Storm Damage Risk Reduction System (HSDRRS). In order to resist lar

    Jan 1, 2017

  • SME-ICGCM
    Numerical Analysis of Some Geotechnical Factors Influencing the Application of Longwall Top Coal Caving

    By Dao Hong Quang

    This paper describes the numerical analysis of some geotechnical factors influencing the application of Longwall Top Coal Caving (LTCC) method. The study was aimed at comparing the differences in stre

    Jan 1, 2008

  • CIM
    Numerical Analysis of the Early Response of Paste Backfill in a Vertical Stope

    By N. E. Mkadmi

    Backfilling increases the stability of underground stopes and may help reduce the environmental footprint from the mining operation. The barricades holding the backfill in place must be designed to pr

    May 1, 2011

  • SME
    Numerical Analysis of the Effect of Bedding Plane Strength on Laminated Roof Failure in Underground Entries Using Coupled FDM‐DEM

    By Qingwen Shi, Brijes Mishra

    The abstract discusses the use of numerical simulations to investigate roof fall in underground mines. It highlights the advantages of the discrete element method (DEM) in simulating large strain prob

    Mar 17, 2022

  • SME
    Numerical Analysis Of The Effect Of Lamination Properties On Roof Failure In Coal Mines Using Coupled Fdm-dem - SME Annual Meeting 2022

    By B. Mishra, Q. Shi

    Numerical simulations have been used to investigate roof fall in the past decades. Comparing to the continuum based methods, the discrete element method has been well recognized for its excellent perf

    Mar 2, 2022

  • NIOSH
    Numerical Analysis Of The Impact Of Longwall Panel Width On Methane Emissions And Performance Of Gob Gas Ventholes

    By C. O. Karacan, S. J. Schatzel, W. P. Diamond

    In coal mining, longwall mining is a preferred method to maximize production by extracting large blocks of coal that have been outlined with a set of development entries. In U.S. mines, longwall pane

  • NIOSH
    Numerical Analysis Of The Influence Of In-Seam Horizontal Methane Drainage Boreholes On Longwall Face Emission Rates

    By S. J. Schatzel, W. P. Diamond

    High methane emissions originating from the active face areas and from the fractured formations overlying and underlying the mined coalbed can adversely affect both safety and productivity in undergro

  • CIM
    Numerical Analysis of the Rock Cutting Process and the Loading of Cutting Tools

    By M. Gimpel, R. Galler, T. Antretter, H. Kargl, M. Mikl-Resch, R. Tichy, W. Ecker, G. Pittino

    "A computational method based on a continuum-mechanical approach to simulate rock cutting is developed and evaluated. The aim is to obtain the local loading acting at the cutting pick during operation

    Jan 1, 2015

  • CIM
    Numerical Analysis of the Rock Cutting Process Based on a Two-parameter Description of Tensile Strength using the Weibull Theory

    By M. Gimpel, R. Galler, T. Antretter, H. Kargl, R. Tichy, W. Ecker, M. J. Mikl-Resch, G. Pittino

    "A computational method based on a continuum-mechanical approach to simulate rock cutting is developed and evaluated. The aim is to obtain the local loading acting at the cutting pick during operation

    Jan 1, 2015

  • SME
    Numerical Analysis of Time-Dependent Creep Behaviour of Tunnel Support Systems

    By R. Chen

    Most tunnels built in Sydney encounter similar ground situations; they penetrate either the Hawkesbury Sandstone or the shales that lie beneath the city. Tunnels in these materials are generally sup-p

    Jan 1, 2008

  • CIM
    Numerical and Experimental Investigation of Failure Mechanism of Rock Using Extended Digital Image Correlation (X-DIC) Technique

    By S. Bhattacharjee

    "Rock failure process is generally recorded or measured using conventional sensors like strain gauges, seismic, micro-seismic, acoustic, electromagnetic and other techniques. The above sensors are eit

    Jan 1, 2015

  • CIM
    Numerical and experimental study of wedge penetration into oil sands

    By D. D. Tannant

    An experimental and numerical study was conducted on the geomechanical behaviour of oil sands during penetration tests in which a steel wedge with an apex angle of either 20 degrees or 30 degrees was

    Jan 1, 2002

  • SAIMM
    Numerical and Physical Modelling of Tundish Slag Entrainment in the Steelmaking Process

    By S. Bradshaw, A. Mabentsela

    "Physical and numerical modelling methods were followed to identify mechanism(s) for tundish slag entrainment in a bare tundish and one with a flow control device (FCD).The physical and numerical mode

    Jan 1, 2017

  • SAIMM
    Numerical approach to influence of pore pressure magnitude and gradient on fracture propagation in brittle heterogeneous rocks

    By T. H. Yang, K. K. Lee, Z. Z. Liang, C. A. Tang, L. C. Li, Y. Tsui, L. G. Tham

    Abstract: A series of numerical tests of hydraulic fracturing in heterogeneous rocks were performed to investigate the influence of pore pressure magnitude and gradient on initiation and propagation

    Jan 1, 2003

  • SME
    Numerical Evaluation and Optimization of Grout Backfill Strategy for a Subsurface Gas Tunnel

    By Davar Abi-Zadeh, Cillian Brown, Deepak Kandra

    "Grout backfill strategy for a particular subsurface concrete tunnel (~4.9km long, 3.5m in diameter, carrying 20” gas pipeline) was based on achieving 1:100 slope of the fill in order to progressively

    Jan 1, 2016

  • SME
    Numerical Evaluation Of Effectiveness Of Drainwells In Dewatering Overburden At Surface Coal Mines

    By R. L. Howell, L. C. Atkinson

    Typical sedimentary sequences overlying coal seams consist of interbedded sandstones, siltstones, shales, and rider coal seams. In many surface coalmine settings, these sediments are saturated; and p

    Jan 1, 2000

  • SME
    Numerical Evaluation of Tunnel Lining in Visco?elastic creep active ground

    By Kyoosang Yoo

    The report presents the results corresponding to the analysis of a lining system for tunnels in soil and soft rock in creep-active ground. The purpose of the analysis is to evaluate the performance of

    Jan 1, 2010