| 1 | Ivanov V.V., Lebedev V.A., Popov S.I., Dontsov N.S., Ostanin O.A. Analysis of the application of chemical-mechanical vibration coatings in mechanical engineering. Mining equipment and electromechanics. 2019; 1(141):3-12. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-3-12 | MORE INFO | DOWNLOAD |
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| 2 | Gericke P.B. Choice and justification of integrated approach parameters for the analysis of vibration of EKG-type mining shovels. Mining equipment and electromechanics. 2019; 1(141):13-19. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-13-19 | MORE INFO | DOWNLOAD |
| 3 | Kyzyrov K.B., Mitusov A.A., Isayev V.L., Reshetnikova O.S. To the issue of optimization of working cycles of hydrostatic impact mechanisms. Mining equipment and electromechanics. 2019; 1(141):20-25. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-20-25 | MORE INFO | DOWNLOAD |
| 4 | Shiriev R.R., Sadykov M.F. Assessment of technical parameters of energy saving light instruments. Mining equipment and electromechanics. 2019; 1(141):26-32. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-26-32 | MORE INFO | DOWNLOAD |
| 5 | Ostrovlyanchik V.Yu., Kubarev V.A., Bogdanovskaya T.V., Ignatenko O.A., Chudinov D.G., Gallyamova O.R., Tolstyh A.V. FPGA-based direct digital control system for thyristor drive. Mining equipment and electromechanics. 2019; 1(141):33-39. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-33-39 | MORE INFO | DOWNLOAD |
| 6 | Ostrovlyanchik V.Yu., Popolzin I.Yu., Marshev D.A., Tolstykh A.V., Drozdova A.V. Controlled current converter for mining lifting installation electric drive based on doublyfed induction machine. Mining equipment and electromechanics. 2019; 1(141):40-46. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-40-46 | MORE INFO | DOWNLOAD |
| 7 | Semykina I.Y., Tarnetskaya A.V. The control system of adjustable-speed gearless permanent magnet syncronious drum-motor for belt conveyor. Mining equipment and electromechanics. 2019; 1(141):47-53. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-47-53 | MORE INFO | DOWNLOAD |
| 8 | Burkov P.V., Burkov V.P., Timofeev V.Yu., Burkova S.P. The rationale for the use of spectral expansion apparatus for modelling the electrome-chanical systems. Mining equipment and electromechanics. 2019; 1(141):54-62. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-1-54-62 | MORE INFO | DOWNLOAD |
| 9 | Liberman Ya.L., Letnev K.Yu., Gorbunova L.N. Automatic control system of conveyor drives. Mining equipment and electromechanics. 2019; 2(142):3-9. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-3-9 | MORE INFO | DOWNLOAD |
| 10 | Stenin D.V., Stenina N.A. Influence of mining transport parameters equipment on the efficiency of use of career dumpers. Mining equipment and electromechanics. 2019; 2(142):10-14. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-10-14 | MORE INFO | DOWNLOAD |
| 11 | Vasilev B.Yu., Grigorev P.S. Resource-saving electromechanical transmission of the mining truck. Mining equipment and electromechanics. 2019; 2(142):15-21. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-15-21 | MORE INFO | DOWNLOAD |
| 12 | Gericke P.B. Classification of defects of generator groups of draglines applicable to creating clipping algorithms. Mining equipment and electromechanics. 2019; 2(142):22-29. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-22-29 | MORE INFO | DOWNLOAD |
| 13 | Aksenov V.V., Sadovets V.Yu., Pashkov D.А. Development of a methodology for determining energy capacity rock destruction by knife executive geodain authority. Mining equipment and electromechanics. 2019; 2(142):30-38. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-30-38 | MORE INFO | DOWNLOAD |
| 14 | Shibaeva D.N., Shumilov P.A., Bulatov V.V., Tereshchenko S.V. Determination of the boundary capacity of a radiometric separator using immitation modeling. Mining equipment and electromechanics. 2019; 2(142):39-45. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-39-45 | MORE INFO | DOWNLOAD |
| 15 | Buryy G.G., Poteryaev I.K., Skobelew S.B., Kovalevskiy V.F. Research of forces resistance forces on a new structure of a bucket hydraulic excavator. Mining equipment and electromechanics. 2019; 2(142):46-51. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-46-51 | MORE INFO | DOWNLOAD |
| 16 | Gerasimuk A.V., Semykina I.Y., Kipervasser M.V. Calculation of equivalent circuit parameters for a split-winding transformer taking into account an on-load tap-changer in a higher-voltage winding. Mining equipment and electromechanics. 2019; 2(142):52-59. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-2-52-59 | MORE INFO | DOWNLOAD |
| 17 | Komissarov A.P., Lagunova Yu.A., Shestakov V.S., Lukashuk O.A. Evaluation of standard parameters of the main mechanisms of the “GORNYI” excavator. Mining equipment and electromechanics. 2019; 3(143):3-8. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-3-8 | MORE INFO | DOWNLOAD |
| 18 | Letnev K.Yu Energy intensity of the rock excavation process by an open-pit excavator with the front shovel type implement. Mining equipment and electromechanics. 2019; 3(143):9-13. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-9-13 | MORE INFO | DOWNLOAD |
| 19 | Lukashuk O.A. Regularities of forming the standard parameters of main mechanisms of open-pit excavator in the process of rock excavation. Mining equipment and electromechanics. 2019; 3(143):14-17. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-14-17 | MORE INFO | DOWNLOAD |
| 20 | Mayorov S.A., Lagunova Yu.A Advantages and disadvantages of mobile crushers. Mining equipment and electromechanics. 2019; 3(143):18-26. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-18-26 | MORE INFO | DOWNLOAD |
| 21 | Semenkin A.V., Antonov V.A. A study and comparative analysis of technological indicators of automobile and conveyor transport in deep pits. Mining equipment and electromechanics. 2019; 3(143):27-32. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-27-32 | MORE INFO | DOWNLOAD |
| 22 | Safronov V.P., Zaytsev Y.V. Simulation model and calculation program for the mechanical system of executive body of the hydraulic excavator. Mining equipment and electromechanics. 2019; 3(143):33-38. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-33-38 | MORE INFO | DOWNLOAD |
| 23 | Suslov N.M., Chernukhin S.A., Suslov D.N. Features of the hydraulic drive of dragline walking mechanism. Mining equipment and electromechanics. 2019; 3(143):39-42. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-39-42 | MORE INFO | DOWNLOAD |
| 24 | Yudin A.V., Shestakov V.S. Justification of parameters of open-pit transshipment points with gravitational movement of broken roc. Mining equipment and electromechanics. 2019; 3(143):43-49. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-3-43-49 | MORE INFO | DOWNLOAD |
| 25 | Voronov A.Y., Khoreshok A.A., Voronov Yu.E., Zhdanov V.L., Voronov A.Y. Justificating the quality indicators of the shovel-truck system operation at open-pit mines. Mining equipment and electromechanics. 2019; 4(144):3-9. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-3-9 | MORE INFO | DOWNLOAD |
| 26 | Kantovich L.I., Dmitrienko V.G., Shemetov E.G., Navarrete W.S. Determination of strength of specific resistance of tracked track of a career excavator 4100-ХРС by using SOLIDWORKS automated design system. Mining equipment and electromechanics. 2019; 4(144):10-14. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-10-14 | MORE INFO | DOWNLOAD |
| 27 | Khoreshok A.A., Ananiev K.A., Ermakov A.N., Shakhmanov V.N. Justification of the installation scheme and the rotation direction of the drums on the executive body of the geokhod. Mining equipment and electromechanics. 2019; 4(144):15-20. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-15-20 | MORE INFO | DOWNLOAD |
| 28 | Kopytin D.V., Gerike B.L., Ananiev K.A., Ermakov A.N. Environmental influence on the flow parameter of hydraulic equipment failure of superior highwall miner systems. Mining equipment and electromechanics. 2019; 4(144):21-25. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-21-25 | MORE INFO | DOWNLOAD |
| 29 | Voronov Yu.E., Kosolapov A.V., Voronov A.Y., Romashko V.G., Voronov A.Y. Integrated assessment of the technical level of mechanical equipment for open-pit mines. Mining equipment and electromechanics. 2019; 4(144):26-33. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-26-33 | MORE INFO | DOWNLOAD |
| 30 | Ozornin M.S., Shishlyannikov D.I., Romanov V.A., Lopouhov V.A. Methods for determination of mechanized combine system performance taking into account conventional units of work. Mining equipment and electromechanics. 2019; 4(144):34-39. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-34-39 | MORE INFO | DOWNLOAD |
| 31 | Voronov A.Y., Stenina N.A., Voronov Yu.E. Dispatching systems at open-pit mines: the past, the present and the future. Mining equipment and electromechanics. 2019; 4(144):40-47. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-40-47 | MORE INFO | DOWNLOAD |
| 32 | Gorbunov I.N., Zakharenko S.G., Zakharov S.A., Malakhova T.F. Application of neural networks for determining the location of damage to air and cable electrical transmission lines. Mining equipment and electromechanics. 2019; 4(144):48-55. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-48-55 | MORE INFO | DOWNLOAD |
| 33 | Negadaev V.A. Construction and optimization of distribution power supply networks. Mining equipment and electromechanics. 2019; 4(144):56-62. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-4-56-62 | MORE INFO | DOWNLOAD |
| 34 | Baranovskaya L.V., Chernova N.M. Determination of extreme component values of the stress-strain state of the box-shaped crane metal structures using gradient methods. Mining equipment and electromechanics. 2019; 5(145):3-7. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-3-7 | MORE INFO | DOWNLOAD |
| 35 | Voronov A.Yu., Voronov Yu.E. Multistage model for shovel-truck system management at open-pit coal mines. Mining equipment and electromechanics. 2019; 5(145):8-15. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-8-15 | MORE INFO | DOWNLOAD |
| 36 | Gericke P.B., Nikitin A.G. Jaw crushers vibration analysis. Mining equipment and electromechanics. 2019; 5(145):16-22. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-16-22 | MORE INFO | DOWNLOAD |
| 37 | Liberman Ya. L., Gorbunova L.N. Ways to reduce energy consumption by transporting machines. Mining equipment and electromechanics. 2019; 5(145):23-28. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-23-28 | MORE INFO | DOWNLOAD |
| 38 | Liberman Ya.L., Letnev K.Yu., Gorbunova L.N. Development of an energy-economic management system vibration conveyor. Mining equipment and electromechanics. 2019; 5(145):29-32. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-29-32 | MORE INFO | DOWNLOAD |
| 39 | Kashirskikh V.G. Reasons for simplifying the mathematical model of induction motor for dynamic identification. Mining equipment and electromechanics. 2019; 5(145):33-37. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-33-37 | MORE INFO | DOWNLOAD |
| 40 | Nepsha F.S., Efremenko V.M. Analysis of methods for determining the emergency and technological standby reserve of coal mines power supply. Mining equipment and electromechanics. 2019; 5(145):38-43. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-38-43 | MORE INFO | DOWNLOAD |
| 41 | Filushov Yu.P. Voevoda A.A., Palagushkn B.V., Filushov V.Yu. Linearization of a control system of salient-pole synchronous machine with permanent magnets in the regulation of the energy characteristics. Mining equipment and electromechanics. 2019; 5(145):44-51. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-44-51 | MORE INFO | DOWNLOAD |
| 42 | Zakharova A.G., Lobur I.A., Shauleva N.M. Fore-cast of loads in electric networks of open-pit coal mines using a probabilistic approach. Mining equipment and electromechanics. 2019; 5(145):52-56. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-5-52-56 | MORE INFO | DOWNLOAD |
| 43 | Stenin D.V Prospects for the development of the pro-duction of autonomous heavy platforms for un-manned mining. Mining equipment and electromechanics. 2019; 6(146):3-8. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-3-8 | MORE INFO | DOWNLOAD |
| 44 | Dubinkin D.M. Current state of technics and technologies in the field of autonomous control movement vehicles of coal mine caree. Mining equipment and electromechanics. 2019; 6(146):8-15. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-8-15 | MORE INFO | DOWNLOAD |
| 45 | Voronov A.Yu., Voronov Yu.E. Current state and development prospects of the autonomous haulage at open-pit mines. Mining equipment and electromechanics. 2019; 6(146):16-24. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-16-24 | MORE INFO | DOWNLOAD |
| 46 | Levashova E.E. Development of the technological process algorithm for restoration of fast-wearing parts of a mining excavator. Mining equipment and electromechanics. 2019; 6(146):25-32. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-25-32 | MORE INFO | DOWNLOAD |
| 47 | Stovmanenko A.Yu., Volkov E.P., Anushenkov A.N. Improving the efficiency of pipeline transport of stowage mixes in the conditions of underground mining of mineral deposits. Mining equipment and electromechanics. 2019; 6(146):33-41. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-33-41 | MORE INFO | DOWNLOAD |
| 48 | Kiselev E.S., Nazarov M.V. Milling of thin walled components from aluminum alloys by considering the conditions of rigidity and automation assignment elements of a cutting mode on CNC machines. Mining equipment and electromechanics. 2019; 6(146):42-46. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-42-46 | MORE INFO | DOWNLOAD |
| 49 | Unyanin A.N., Finageev P.R. Statistical analysis parameters of the machining process. . Mining equipment and electromechanics. 2019; 6(146):48-54. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-48-54 | MORE INFO | DOWNLOAD |
| 50 | Unyanin A.N., Khazov A.V. Study of the efficiency of flat grinding with the application of ultrasonic vibrations to the workpiece. Mining equipment and electromechanics. 2019; 6(146):55-62. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2019-6-55-62 | MORE INFO | DOWNLOAD |
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