Analysis of Yielding Steel Arch Support with Rock Bolts in Mine Roadways Stability Aspect

Majcherczyk, T.; Niedbalski, Zbigniew; Małkowski, Piotr; Bednarek, Łukasz

doi:10.2478/amsc-2014-0045

Cited by 38 publications

(30 citation statements)

References 9 publications

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“…Even without observing these effects, however, we achieved satisfactory results in terms of the total load-bearing capacity of the support. On the basis of a broader set of tests of arch supports of various types and sizes (Pacześniowski & Taborek, 2014), it was found that the loading at the moment of the first slip F 1 is very close to the total load-bearing capacity support F N under that standard (Pacześniowski & Taborek, 2014) and corresponds to findings from practice (Majcherczyk et al, 2014). The friction coefficients in the tuned FE model correspond with values for a slightly corroded surface (Horyl & Šňupárek & Maršálek, 2014).…”

Section: Resultssupporting

confidence: 56%

Simulation of Laboratory Tests of Steel Arch Support

Horyl¹,

Šňupárek²,

Maršálek³

et al. 2017

Archives of Mining Sciences

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The total load-bearing capacity of steel arch yielding roadways supports is among their most important characteristics. These values can be obtained in two ways: experimental measurements in a specialized laboratory or computer modelling by FEM. Experimental measurements are significantly more expensive and more time-consuming. However, for proper tuning, a computer model is very valuable and can provide the necessary verification by experiment. In the cooperating workplaces of GIG Katowice, VSB-Technical University of Ostrava and the Institute of Geonics ASCR this verification was successful. The present article discusses the conditions and results of this verification for static problems. The output is a tuned computer model, which may be used for other calculations to obtain the load-bearing capacity of other types of steel arch supports. Changes in other parameters such as the material properties of steel, size torques, friction coefficient values etc. can be determined relatively quickly by changing the properties of the investigated steel arch supports.

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Section: Resultssupporting

confidence: 56%

Simulation of Laboratory Tests of Steel Arch Support

Horyl¹,

Šňupárek²,

Maršálek³

et al. 2017

Archives of Mining Sciences

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“…The most popular are the rock bolts equipped with strain gauges [24,25], but they are also available with fibre optic sensors [26]. Unfortunately, the solutions used so far in the Polish copper ore mining industry did not meet the requirements of measurement accuracy and sampling frequency.…”

Section: Instrumented Rock Boltsmentioning

confidence: 99%

Monitoring of the stability of underground workings in Polish copper mines conditions

2018

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Abstract.One of the problems associated with the excavation of deposit in underground mines is the local disturbance in a state of unstable equilibrium results in the sudden release of energy, mainly in the form of roof falls. The scale and intensity of this type of events depends on a number of factors. To minimize the risk of instability occurrence, continuous observations of the roof strata condition are recommended. Different roof strata observation methods used in the Polish copper mines have been analysed within the framework of presented paper. In addition, selected prospective methods, which could significantly increase efficiency of rock fall prevention are presented.

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“…There are a number of factors related to natural hazards (rock bursting, rock mass tremors, relaxations), local instability (roof rock falls, rock slides, development of rock mass separation), mining technological factors (blasting with explosives, mining method, and support types ), and geological factors (depth of the orebody, structure of the roof, rock strength parameters, faults) [2], [17], [24], [29]. As a result of a combination of individual factors, the roof of underground excavations sags.…”

Section: Introductionmentioning

confidence: 99%

“…Analogical symbols and equations are shown in Figs. 18,20,22,24 with reference to successive experiments carried out and rock bolts. The range of the elastic strains -expansion (return to the initial position).…”

mentioning

confidence: 99%

Reinforcement of Underground Excavation with Expansion Shell Rock Bolt Equipped with Deformable Component

Korzeniowski

Skrzypkowski

Zagórski

2017

Studia Geotechnica Et Mechanica

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Abstract:The basic type of rock mass reinforcement method for both preparatory and operational workings in underground metal ore mines, both in Poland and in different countries across the world, is the expansion shell or adhesive-bonded rock bolt. The article discusses results of static loading test of the expansion shell rock bolts equipped with originally developed deformable component. This component consists of two profiled rock bolt washers, two disk springs, and three guide bars. The disk spring and disk washer material differs in stiffness. The construction materials ensure that at first the springs under loading are partially compressed, and then the rock bolt washer is plastically deformed. The rock bolts tested were installed in blocks simulating a rock mass with rock compressive strength of 80 MPa. The rock bolt was loaded statically until its ultimate loading capacity was exceeded. The study presents the results obtained under laboratory conditions in the test rig allowing testing of the rock bolts at their natural size, as used in underground metal ore mines. The stress-strain/displacement characteristics of the expansion shell rock bolt with the deformable component were determined experimentally. The relationships between the geometric parameters and specific strains or displacements of the bolt rod were described, and the percentage contribution of those values in total displacements, resulting from the deformation of rock bolt support components (washer, thread) and the expansion shell head displacements, were estimated. The stiffness of the yielded and stiff bolts was empirically determined, including stiffness parameters of every individual part (deformable component, steel rod). There were two phases of displacement observed during the static tension of the rock bolt which differed in their intensity.

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Analysis of Yielding Steel Arch Support with Rock Bolts in Mine Roadways Stability Aspect

Cited by 38 publications

References 9 publications

Simulation of Laboratory Tests of Steel Arch Support

Simulation of Laboratory Tests of Steel Arch Support

Monitoring of the stability of underground workings in Polish copper mines conditions

Reinforcement of Underground Excavation with Expansion Shell Rock Bolt Equipped with Deformable Component

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