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Item type:Наукова стаття, Evaluating the stiffness of a cast strip for protecting a preparatory mine working(2025) Podkopaiev, Serhii; Visyn, Olena; Fedorchuk-Moroz, ValentynaThe object of this study is the deforma-tion processes in a protective structure of the preparatory working, maintained in the excavated space of the excavation area. The task addressed was ensuring the stability of the preparatory working in a deep coal mine to improve the safety of miners and coal mining. The assessment of the strength of the cast strip for the protection of prepa-ratory workings in excavation areas has been substantiated.It was experimentally established that in the zone of active influence of mining pressure on the section 0 < l < 50 m behind the treatment face, there is an exponential dependence between the length of the work-ing l (m) and the relative change in the vol-ume δV of the protective structure. It charac-terizes the safe deformation resource of the cast strip. Within its limits, the process of gaining strength of the protective structure occurs. At δV < 0.18 and the failure rate of the arched flexible support ω< 0.2, the losses of the cross-sectional area of the working do not exceed 20 %. Under conditions when δV ≤ 0.22, the resistance of the protective structure increases, which makes it possible to limit the movement of lateral rocks on the contour of the working, ensuring its overall dimensions. In cases when δV > 0.22, and 0.22 < ω < 0.68, the losses of the cross-section-al area are more than 40 %. At a distance of l > 80 m behind the breakage face, the level of threat of roof collapses approaches a critical state, which is associated with an uncontrolled increase in lateral rock dis-placements due to the loss of strength of the cast strip.The cast strip performs the functions of a supporting structure only in a certain range of physical, mechanical, and defor-mation properties.The operational condition of the pre-paratory working is ensured within the deformation resource of the cast strip. After reaching the rated strength of the cast strip, its strength makes it possible to limit the movement of lateral rocks on the contour of the working and ensure its stability at a dis-tance of l ≤ 80 m along the length of the excavation section.Item type:Наукова стаття, Determination of the stability of rolling strains of steep layers during the unloading of a coal-carbon massive(2024) Podkopaiev, Serhii; Fedorchuk-Moroz, Valentyna; Shymchuk, OleksandrThe object of this study is the condition of side rocks in a coal rock massif with pre-paratory workings. The task solved was to ensure the stability of preparatory workings to improve the safety of miners’ activities.The bearing capacity of protective struc-tures in the preparatory mining workings along the length of the excavation section in a coal mine was comparatively assessed.The operational condition of the roll-back stretch, when using a protective technique that involves coal pillars, is provided for at their relative deformation e < 0.25 and rela-tive volume change dV < 0.1. At a distance of l > 50 m behind the cleaning pit, at e ³ 0.6–0.8, there is a decrease in the load-bearing capa-city of coal pillars and the destruction of the roof. The loss of cross-sectional area of the roll-back stretch is 50 %. Under such con-ditions, the level of a roof collapse threat is approaching a critical state. When using rolling bundles made of wooden sleepers at e > 0.21 and dV > 0.16, conditions are created around the preparatory workings at which the integrity of the roof is ensured through the gradual sealing of protective structures. At a distance l > 60 m, the increase in lateral rock displacements reaches the minimum va lues DU = 10 mm, and the loss of the cross-sec-tional area of the roll-back stretch is 30 %.The kind of functional dependence between the length l (m) of the roll-back stretch with different protection techniques and the rela-tive change in the volume dV of protective structures was experimentally determined. Such a dependence makes it possible to assess the bearing capacity of protective structures along the length of the excavation area in the zone of active influence of mountain pressure behind the cleaning pit.The operational condition of roll-back stretches when using coal pillars is ensured within the limits of their deformation resource, which limits the use of this protection tech-nique. To ensure the stability of preparatory workings, it is advisable to use rolled bundles made of wooden sleepers. After their compac-tion, the movement of side rocks is limited in the worked-out space of the excavation site.