| 1 | Zakharov A.Y., Grigoryev A.V., Zakharova A.G. Overview of conveyor belt longitudinal break detect ways. Mining equipment and electromechanics. 2020; 5(151):57-63. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2020-5-57-63 | MORE INFO | DOWNLOAD |
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| 2 | Zakharova A.G., Zakharov A.Y., Lobur I.A., Shauleva N.M. Ultrasonic based device to detect longitudinal tears on conveyor belts. Mining equipment and electromechanics. 2022; 4(162):62-70. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2022-4-62-70 | MORE INFO | DOWNLOAD |
| 3 | Zakharov A.Y., Grigoriev A.V., Zakharova A.G., Lobur I.A., Shauleva N.M. Structural scheme of the device to detect longitudinal tears on conveyor belts with minimum influence of electromagnetic interference. Mining equipment and electromechanics. 2023; 1(165):11-17. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2023-1-11-17 | MORE INFO | DOWNLOAD |
| 4 | Zakharov A.Y., Homenko A.N., Shaulev A.A., Grigoriev A.V., A.G. Zakharova, Shauleva N.M. Development and creation of an installation for determining battery resource. Mining equipment and electromechanics. 2025; 5(181):22-29. (In Russ., abstract in Eng.). DOI: 10.26730/1816-4528-2025-5-22-29 | MORE INFO | DOWNLOAD |
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