Czasopismo

Tytuł artykułu

Warianty tytułu

Języki publikacji

Abstrakty

Czasopismo

Rocznik

Tom

Numer

Strony

377--387

Opis fizyczny

Twórcy

autor

- AGH University of Science and Technology Kraków, Poland

autor

- Łukasiewicz Research Network, Institute of Innovative Technologies EMAG, Poland

autor

- AGH University of Science and Technology Kraków, Poland

Bibliografia

- [1] Solid as a rock, GHH group, https://ghhrocks.com, access: 24.08.2022.
- [2] V. David, J. Gajewski, M. Forbelská, Z. Vintr and J. Jonak, "Drilling head knives degradation modelling based on stochastic diffusion processes backed up by state space models", Mechanical Systems and Signal Processing, 166, 2022.
- [3] K. Skrzypkowski, "Case Studies of Rock Bolt Support Loads and Rock Mass Monitoring for the Room and Pillar Method in the Legnica-Głogów Copper District in Poland", Energies, 13, 2998, pp. 1-20, 2020.
- [4] K. Skrzypkowski, W. Korzeniowski, K. Zagórski and A. Zagórska, "Adjustment of the Yielding System of Mechanical Rock Bolts for Room and Pillar Mining Method in Stratified Rock Mass", Energies, 13, 2082, pp. 1-20, 2020.
- [5] K. Kotwica, and P. Małkowski, "Methods of Mechanical Mining of Compact-Rock - A Comparison of Efficiency and Energy Consumption", Energies, 12, 3562, pp. 1-25, 2019.
- [6] J. Joostberens, A. Pawlikowski, D. Prostański and K. Nieśpiałowski, "Method for Assessment of Operation of Analog Filters Installed in the Measuring Lines for Electrical Quantities of a Mining Machine's Converter Power Supply System", Energies, 14, 2384, 2021.
- [7] J. Karliński, M. Ptak and L. Chybowski, "Simulation-Based Methodology for Determining the Dynamic Strength of Tire Inflation Restraining Devices", Energies, 13(4), pp. 1- 14, 2020.
- [8] J. Karliński, M. Stańco, M and P. Działak, "Determination of the dynamic overloads in the loader structure", Materials Today-Proceedings, 4, 5, pp. 5843-5848, 2017.
- [9] R. Waloski, W. Korzeniowski, Ł. Bołoz and W. Rączka, "Identification of Rock Mass Critical Discontinuities While Borehole Drilling", Energies, 14, 2748, 2021.
- [10] P. Kamiński, A. Dyczko, and D. Prostański, "Virtual Simulations of a New Construction of the Artificial Shaft Bottom (Shaft Safety Platform) for Use in Mine Shafts", Energies, 14, 2110, 2021.
- [11] J. Gajewski, P. Golewski and T. Sadowski, "The Use of Neural Networks in the Analysis of Dual Adhesive Single Lap Joints Subjected to Uniaxial Tensile Test", Materials (Basel), 15, 14(2), 2021.
- [12] J. Gajewski, J. Podgórski, J. Jonak and Z. Szkudlarek, "Numerical simulation of brittle rock loosening during mining process", Computational Materials Science, 43(1), pp. 115-118, 2008.
- [13] P. Działak and J. Karliński, "Comparative examination of the trailer frame in accordance with UIC 596-5", Materials Today-Proceedings, 12, 2, pp. 416-422, 2019,
- [14] W. Biały, Ł. Bołoz and J. Sitko, "Mechanical Processing of Hard Coal as a Source of Noise Pollution. Case Study in Po- land", Energies, 14, 1332, 2021.
- [15] K. Krzysztof, Ł. Bołoz, K. Mucha and T. Wydro, "The mechanized supporting system in tunnelling operations", Tunnelling and Underground Space Technology, 113, 2021.
- [16] A. Kozłowski and Ł. Bołoz, "Design and Research on Power Systems and Algorithms for Controlling Electric Underground Mining Machines Powered by Batteries", Energies, 14, 4060, 2021.
- [17] M. Ťavodová, D. Kalincová, M. Hnilicová and R. Hnilica, "The influence of heat treatment on tool properties mulcher", Manufacturing technology, 16, 5, pp. 1169- 1173, 2016.
- [18] Ł. Bołoz and W. Biały, "Automation and Robotization of Underground Mining in Poland". Applied Science, 10, 7221, 2020.
- [19] J. Karliński, E. Rusiński and T. Lewandowski, "New generation automated drilling machine for tunnelling and underground mining work", Automation in Construction, 17, 3, pp. 224-231, 2008.
- [20] A. Reński, "Investigation of the Influence of the Centre of Gravity Position on the Course of Vehicle Rollover", 24th Enhanced Safety of Vehicles Conference, At: Gothenburg, Sweden, 2015.
- [21] J. Wu, A. Guzzomi and M. Hodkiewicz, "Static stability analysis of non-slewing articulated mobile cranes", Australian Journal of Mechanical Engineering, 12, 2014.
- [22] D. Fujioka, A. Rauch, W. Singhose and T. Jones, "Tip-Over Stability Analysis of Mobile Boom Cranes with Double-Pendulum Payloads", Proceedings of the American Control Conference, pp. 3136-3141, 2013.
- [23] W. Kacalak, Z. Budniak and M. Majewski, "Modeling and simulation research of crane stability in the operating cycle (in Polish)", Modelling in Engineering, 34, pp. 47-56, 2017.
- [24] G. Romanello, "A graphical approach for the determination of outrigger loads in mobile cranes", Mechanics Based Design of Structures and Machines, 2, pp. 767-780, 2020.
- [25] T. Lei, J. Wang and Z. Yao, "Modelling and Stability Analysis of Articulated Vehicles." Applied Science, 11, 3663, 2021.
- [26] S. Bako, "Stability Analysis of a Semi-Trailer Articulated Vehicle, A Review." International Journal of Automotive Science And Technology, 5, 2, pp. 131-140, 2021.
- [27] A. Tota, E Galvagno and M. Velardocchia, "Analytical Study on the Cornering Behavior of an Articulated Tracked Vehicle", Machines, 9, 38, 2021.
- [28] R. Majdan, R. Abrahám, K. Kollárová, Z. Tkáč, E. Matejková and L. Kubík, "Alternative Models for Calculation of Static Overturning Angle and Lateral Stability Analysis of Sub- compact and Universal Tractors", Agriculture, 11, 861, 2021.
- [29] M. Bietresato and F. Mazzetto, "Definition of the Layout for a New Facility to Test the Static and Dynamic Stability of Agricultural Vehicles Operating on Sloping Grounds", Applied Science, 9, 4135, 2019.
- [30] L. Vita, D. Gattamelata and D. Pessina, "Retrofitting Agricultural Self-Propelled Machines with Roll-Over and Tip-Over Protective Structures", Safety, 7, 46, 2021.
- [31] Ł. Bołoz and A. Kozłowski, "Methodology for assessing the stability of drilling rigs based on analytical tests", Energies, 14, 24, 8588, pp. 1-29, 2021.
- [32] P. Dudziński and G. Sierzputowski, "Innovative universal vehicle for experimental tests on roll-over stability of off-road wheeled machines and vehicles", Journal of KONES Powertrain and Transport, 23, 4, pp. 93-98, 2016.
- [33] G. Sierzputowski and P. Dudziński, "A mathematical model for determining and improving rollover stability of four-wheel earthmoving vehicles with arbitrary undercarriage system design", Archives of Civil and Mechanical Engineering, 20, 52, pp. 320-338, 2020.
- [34] L. Xuefei, "Dynamic model and validation of an articulated steering wheel loader on slopes and over obstacles", Vehicle System Dynamics, 10, pp. 1305-1323, 2013.
- [35] Xuefei L. "Research on lateral stability and rollover mechanism of articulated wheel loader", Mathemathical and Computer Modelling of Dynamical Systems, 5, pp. 248-263, 2014.
- [36] L. Xuefei, W. Ya, Z. Wei, and Y. Zongwei, "Study on Roll Instability Mechanism and Stability Index of Articulated Steering Vehicles", Mathematical Problems in Engineering, 4, pp. 1-15, 2016

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.ekon-element-000171663312

## Zgłoszenie zostało wysłane

## Zgłoszenie zostało wysłane

Musisz być zalogowany aby pisać komentarze.