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Adach-Pawelus, K., Butra, J. & Pawelus, D. (2017). An Attempt at Evaluation of the Remnant Influence On the Occurrence of Seismic Phenomena in a Room-and-Pillar Mining System with Roof Deflection. Studia Geotechnica et Mechanica 39(2), 3-16. Retrieved August 1, 2017, from Walter de Gruyter GmbH: http://sgem.pwr.wroc.pl10.1515/sgem-2017-0011Adach-PawelusK.ButraJ.PawelusD.2017An Attempt at Evaluation of the Remnant Influence On the Occurrence of Seismic Phenomena in a Room-and-Pillar Mining System with Roof DeflectionStudia Geotechnica et Mechanica392316Retrieved August 1, 2017, from Walter de Gruyter GmbHhttp://sgem.pwr.wroc.pl10.1515/sgem-2017-001110.1515/sgem-2017-0011Search in Google Scholar
Burtan, Z., Zorychta, A., Cieślik, J. & Chlebowski, D. (2014). Influence of mining operating conditions on fault behavior. Archives of Mining Science. 59(3), 691-704. doi.org/10.2478/amsc-2014-0048BurtanZ.ZorychtaA.CieślikJ.ChlebowskiD.2014Influence of mining operating conditions on fault behaviorArchives of Mining Science593691704doi.org/10.2478/amsc-2014-0048Open DOISearch in Google Scholar
Chlebowski, D., Burtan, Z. & Zorychta, A. (2018). Evaluation of rockburst hazard under abandoned mine workings. Archives of Mining Science 63(3), 687-699. Retrieved October 1, 2018, from Instytut Mechaniki Górotworu PAN: http://mining.archives.pl10.24425/123691ChlebowskiD.BurtanZ.ZorychtaA.2018Evaluation of rockburst hazard under abandoned mine workingsArchives of Mining Science633687699Retrieved October12018from Instytut Mechaniki Górotworu PANhttp://mining.archives.pl10.24425/123691Search in Google Scholar
Dębkowski, R., Madziarz, M., Sawicki, W. & Osadczuk, T. (2007). Measurements of load acting on expansive roof bolts affected by seismic events. Rudy i Metale Nieżelazne 52(8), 459-463.DębkowskiR.MadziarzM.SawickiW.OsadczukT.2007Measurements of load acting on expansive roof bolts affected by seismic eventsRudy i Metale Nieżelazne528459463Search in Google Scholar
Fuławka, K., Mertuszka, P. & Pytel, W. (2018). Monitoring of the stability of underground workings in Polish copper mines conditions. E3S Web of Conferences 29, 1-14. Retrieved January 31, 2018, from EDP Sciences: http://www.e3s-conferences.org10.1051/e3sconf/20182900008FuławkaK.MertuszkaP.PytelW.2018Monitoring of the stability of underground workings in Polish copper mines conditionsE3S Web of Conferences29114Retrieved January 31, 2018, from EDP Scienceshttp://www.e3s-conferences.org10.1051/e3sconf/2018290000810.1051/e3sconf/20182900008Search in Google Scholar
Ivanović, A. & Neilson, R.D. (2013). Non-destructive testing of rock bolts for estimating total bolt length. International Journal of Rock Mechanics and Mining Sciences 64, 36-43. 10.1016/j.ijrmms.2013.08.017IvanovićA.NeilsonR.D.2013Non-destructive testing of rock bolts for estimating total bolt lengthInternational Journal of Rock Mechanics and Mining Sciences64364310.1016/j.ijrmms.2013.08.01710.1016/j.ijrmms.2013.08.017Search in Google Scholar
Kapusta, M. (2017). Wpływ osób dozoru górniczego na poprawę warunków bhp. Inżynieria Mineralna 18(2), 183-193. 10.29227/IM-2017-02-20KapustaM.2017Wpływ osób dozoru górniczego na poprawę warunków bhpInżynieria Mineralna18218319310.29227/IM-2017-02-20Search in Google Scholar
Korzeniowski, W., Skrzypkowski, K. & Herezy, Ł. (2015). Laboratory method for evaluating the characteristics of expansion rock bolts subjected to axial tension. Archives of Mining Science 60(1), 209 - 224. 10.1515/amsc-2015-0014KorzeniowskiW.SkrzypkowskiK.HerezyŁ.2015Laboratory method for evaluating the characteristics of expansion rock bolts subjected to axial tensionArchives of Mining Science60120922410.1515/amsc-2015-001410.1515/amsc-2015-0014Search in Google Scholar
Korzeniowski, W., Skrzypkowski, K. & Herezy Ł. (2018). Zdalny, nieelektryczny wskaźnik WK-2/8 wartości siły obciążającej kotew w wyrobisku górniczym. Zeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią Polskiej Akademii Nauk 103, 53-64. 10.24425/123706KorzeniowskiW.SkrzypkowskiK.HerezyŁ.2018Zdalny, nieelektryczny wskaźnik WK-2/8 wartości siły obciążającej kotew w wyrobisku górniczymZeszyty Naukowe Instytutu Gospodarki Surowcami Mineralnymi i Energią Polskiej Akademii Nauk103536410.24425/123706Search in Google Scholar
Korzeniowski, W., Skrzypkowski, K. & Zagórski, K (2017). Reinforcement of underground excavation with expansion shell rock bolt equipped with deformable component. Studia Geotechnica et Mechanica 39(1), 39-52. Retrieved May 17, 2017, from Walter de Gruyter GmbH: http://sgem.pwr.wroc.pl0.1515/sgem-2017-0004KorzeniowskiW.SkrzypkowskiK.ZagórskiK2017Reinforcement of underground excavation with expansion shell rock bolt equipped with deformable componentStudia Geotechnica et Mechanica3913952Retrieved May 17, 2017, from Walter de Gruyter GmbHhttp://sgem.pwr.wroc.pl0.1515/sgem-2017-000410.1515/sgem-2017-0004Search in Google Scholar
Korzeniowski, W., Skrzypkowski, K., Herezy, Ł., Kulik, M. & Zagórski K. (2016). Patent RP nr PAT.226879. Sposób pomiaru obciążenia kotwy oraz dynamometryczna podkładka kotwowa. Akademia Górniczo-Hutnicza, Kraków. Biuletyn Urzędu Patentowego.KorzeniowskiW.SkrzypkowskiK.HerezyŁ.KulikM.ZagórskiK.2016Patent RP nr PAT.226879. Sposób pomiaru obciążenia kotwy oraz dynamometryczna podkładka kotwowaAkademia Górniczo-HutniczaKrakówBiuletyn Urzędu PatentowegoSearch in Google Scholar
Kwaśniewski, J., Dominik, I., Konieczny, J. & Lalik K. (2014). Patent RP nr 219351. Urządzenie do monitorowania zmian naprężeń. Akademia Górniczo-Hutnicza, Kraków. Biuletyn Urzędu Patentowego.KwaśniewskiJ.DominikI.KoniecznyJ.LalikK.2014Patent RP nr 219351. Urządzenie do monitorowania zmian naprężeńAkademia Górniczo-HutniczaKrakówBiuletyn Urzędu PatentowegoSearch in Google Scholar
Kwaśniewski, J., Dominik I., Lalik K., Korzeniowski W., Zagórski K. & Skrzypkowski K. (2016). Rock bolts health monitoring using self-excited phenomenon. Diffusion and Defect Data – Solid State Data. Part B, Solid State Phenomena 248, 186–191. 10.4028/www.scientific.net/SSP.248.186KwaśniewskiJ.DominikI.LalikK.KorzeniowskiW.ZagórskiK.SkrzypkowskiK.2016Rock bolts health monitoring using self-excited phenomenonDiffusion and Defect Data – Solid State Data. Part B, Solid State Phenomena248186–19110.4028/www.scientific.net/SSP.248.18610.4028/www.scientific.net/SSP.248.186Search in Google Scholar
Małkowski, P., Ostrowski, Ł. & Bochenek, P. (2017). Modelling the Small Throw Fault Effect on the Stability of a Mining Roadway and Its Verification by In Situ Investigation. Energies 10,1-21. Retrieved December 7, 2017, from MDPI - Publisher of Open Access Journals: http://www.mdpi.com10.3390/en10122082MałkowskiP.OstrowskiŁ.BochenekP.2017Modelling the Small Throw Fault Effect on the Stability of a Mining Roadway and Its Verification by In Situ InvestigationEnergies10121Retrieved December 7, 2017, from MDPI - Publisher of Open Access Journalshttp://www.mdpi.com10.3390/en10122082Search in Google Scholar
Niedbalski, Z., Małkowski, P. & Majcherczyk, T. (2013). Monitoring of stand-and-roof-bolting support: design optimization. Acta Geodynamica and Geomaterialia 10( 2), 215–226.NiedbalskiZ.MałkowskiP.MajcherczykT.2013Monitoring of stand-and-roof-bolting support: design optimizationActa Geodynamica and Geomaterialia10 221522610.13168/AGG.2013.0022Search in Google Scholar
Prusek, S, Turek, M, Rotkegel, M. & Witek, M. (2012). Wybrane rozwiązania konstrukcyjne wskaźników obciążenia kotwi. Przegląd Górniczy. 5 37-44.PrusekS.TurekM.RotkegelM.WitekM.2012Wybrane rozwiązania konstrukcyjne wskaźników obciążenia kotwiPrzegląd Górniczy53744Search in Google Scholar
Pytlik, A. & Pytlik, M. (2016). Czujniki do monitoring siły naciągu kotwi górniczych przy obciążeniach statycznych i dynamicznych. Przegląd Górniczy 11, 38-47.PytlikA.PytlikM.2016Czujniki do monitoring siły naciągu kotwi górniczych przy obciążeniach statycznych i dynamicznychPrzegląd Górniczy113847Search in Google Scholar
Pytlik, A., Prusek S. & Masny, W. (2016). A methodology for laboratory testing of rockbolts used in underground mines under dynamic loading conditions. Journal of the Southern African Institute of Mining and Metallurgy 116(12), 1101-1110. 0.17159/2411-9717/2016/v116n12a2PytlikA.PrusekS.MasnyW.2016A methodology for laboratory testing of rockbolts used in underground mines under dynamic loading conditionsJournal of the Southern African Institute of Mining and Metallurgy11612110111100.17159/2411-9717/2016/v116n12a210.17159/2411-9717/2016/v116n12a2Search in Google Scholar
Skrzypkowski, K. (2018). A new design of support for bust-prone rock mass in underground ore mining. E3S Web of Conferences 71, 1-9. Retrieved December 5, 2018, from EDP Sciences: http://www.e3s-conferences.org10.1051/e3sconf/20187100006SkrzypkowskiK.2018A new design of support for bust-prone rock mass in underground ore miningE3S Web of Conferences7119Retrieved December 5, 2018, from EDP Scienceshttp://www.e3s-conferences.org10.1051/e3sconf/20187100006Search in Google Scholar
Skrzypkowski K. (2018). Evaluation of rock bolt support for Polish hard rock mines. E3S Web of Conferences 35, 1-8. Retrieved March 23, 2018, from EDP Sciences: http://www.e3s-conferences.org10.1051/e3sconf/20183501006SkrzypkowskiK.2018Evaluation of rock bolt support for Polish hard rock minesE3S Web of Conferences3518Retrieved March 23, 2018, from EDP Scienceshttp://www.e3s-conferences.org10.1051/e3sconf/2018350100610.1051/e3sconf/20183501006Search in Google Scholar
Skrzypkowski, K. (2018). Laboratory testing of a long expansion rock bolt support for energy-absorbing applications. E3S Web of Conferences 29, 1-9. Retrieved January 31, 2018, from EDP Sciences: http://www.e3s-conferences.org10.1051/e3sconf/20182900004SkrzypkowskiK.2018Laboratory testing of a long expansion rock bolt support for energy-absorbing applicationsE3S Web of Conferences2919Retrieved January 31, 2018, from EDP Scienceshttp://www.e3s-conferences.org10.1051/e3sconf/2018290000410.1051/e3sconf/20182900004Search in Google Scholar
Skrzypkowski, K., Korzeniowski, W., Zagórski, K. & Dudek, P. (2017). Application of long expansion rock bolt support in the underground mines of Legnica-Głogów copper district. Studia Geotechnica et Mechanica 39(3), 47-56. Retrieved November 18, 2017, from Walter de Gruyter GmbH: http://sgem.pwr.wroc.pl10.1515/sgem-2017-0029SkrzypkowskiK.KorzeniowskiW.ZagórskiK.DudekP.2017Application of long expansion rock bolt support in the underground mines of Legnica-Głogów copper districtStudia Geotechnica et Mechanica3934756Retrieved November 18, 2017, from Walter de Gruyter GmbHhttp://sgem.pwr.wroc.pl10.1515/sgem-2017-002910.1515/sgem-2017-0029Search in Google Scholar
Song, G., Li, W., Wang, B. & Ho, S.C.M. (2017). A Review of Rock Bolt Monitoring Using Smart Sensors. Sensors 17(4), 1-24. Retrieved April 5, 2017, from MDPI - Publisher of Open Access Journals: http://www.mdpi.com10.3390/s17040776SongG.LiW.WangB.HoS.C.M.2017A Review of Rock Bolt Monitoring Using Smart SensorsSensors174124Retrieved April 5, 2017, from MDPI - Publisher of Open Access Journalshttp://www.mdpi.com10.3390/s1704077610.3390/s17040776542204928379167Search in Google Scholar
Staniek, A. (2005). Method for identification of grouting continuity of rock bolts. Archives of Mining Sciences 50(3), 371-396.StaniekA.2005Method for identification of grouting continuity of rock boltsArchives of Mining Sciences503371396Search in Google Scholar
Tajduś, A., Cała, M., Tajduś, K. (2018). Seismicity and rock burst hazard assessment in fault zones: a case study. Archives of Mining Sciences 63(3), 747-765. Retrieved October 1, 2018, from Instytut Mechaniki Górotworu PAN: http://mining.archives.pl10.24425/123695TajduśA.CałaM.TajduśK.2018Seismicity and rock burst hazard assessment in fault zones: a case studyArchives of Mining Sciences633747765Retrieved October 1, 2018, from Instytut Mechaniki Górotworu PANhttp://mining.archives.pl10.24425/123695Search in Google Scholar
