Diagnostics of bearings of wheels of cars with the use of noise-acoustic control methods
DSpace at Ternopil State Ivan Puluj Technical University
Переглянути архів Інформація| Поле | Співвідношення | |
| Title |
Diagnostics of bearings of wheels of cars with the use of noise-acoustic control methods
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| Creator |
Shmatko, Dmytro
Averyanov, Vladimir Sasov, Alexander Cherneta, Oleg |
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| Contributor |
Dnipro State Technical University, Dniprobudivska str., 2, Kamianske, Ukraine, 51918, zombizon@yandex.ua
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| Date |
2019-07-09T06:30:53Z
2019-07-09T06:30:53Z 2019-05-28 2019-05-28 |
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| Type |
Conference Abstract
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| Identifier |
Diagnostics of bearings of wheels of cars with the use of noise-acoustic control methods / Dmytro Shmatko, Vladimir Averyanov, Alexander Sasov, Oleg Cherneta // Proceedings of ICCPT 2019, May 28-29, 2019. — Tern. : TNTU, Scientific Publishing House “SciView”, 2019. — P. 304–311.
978-966-305-101-7 http://elartu.tntu.edu.ua/handle/lib/28722 Shmatko D., Averyanov V., Sasov A., Cherneta O. (2019) Diagnostics of bearings of wheels of cars with the use of noise-acoustic control methods. Proceedings of ICCPT 2019 (Tern., May 28-29, 2019), pp. 304-311. |
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| Language |
en
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| Relation |
Матеріали Міжнародної науково-технічної конференції „Актуальні проблеми транспорту“, 2019
Proceedings of the 1-st International Scientific Conference "Current Problems of Transport", 2019 1. Korobochka, O.; Skornyakov, E.; Sasov, O. Fundamentals of calculation, design and operation of technical equipment for motor transport. DSTU: Dneprodzerzhinsk, 2007; 226p. 2. Kanevsky, I.; Sampikova, I. Nondestructive methods of control. DVSTU: Vladivostok, 2007; 243p. 3. Alian, H.; Konforty, S.; Ben-Simon, U.; Klein, R.; Tur, M.; Bortman, J. Bearing fault detection and fault size estimation using fiber-optic sensors. Mechanical Systems and Signal Processing 2019; 120(1), 392–407. 4. Martin-del-Campo, S.; Schnabel, S.; Sandin, F.; Marklund, P. Detection of particle contaminants in rolling element bearings with un supervised acoustic emission feature learning. Tribology International 2019; 63(1). 30–38. 5. Schmidt, S.; Heyns, P.; Gryllias, K. A discrepancy analysis methodology for rolling element bearing diagnostics under variable speed conditions. Mechanical Systems and Signal Processing 2019; 116, 40–61. 6. Piltan, F.; Kim, J. Bearing fault diagnosis using an extended variable structure feedback linearization observer. Sensors Switzerland 2018; 18(12), 43–59. 7. Jakubek, B., Jakubowicz, M., Smułek, W. Comparison of rolling bearings’ diagnosing methods – Procedures of damage introduction. Vibrations in Physical Systems 2018; 29, 11–19. 8. Shklyar, V. N. Planirovanie eksperimenta i obrabotka rezultatov. TPU: Tomsk, 2010; 90 р. |
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| Rights |
© Scientific Publishing House “SciView”, 2019
© Ternopil Ivan Puluj National Technical University, 2019 |
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| Format |
304-311
8 |
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| Coverage |
28-29 травня 2019 року
May 28-29, 2019 Тернопіль Ternopil |
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| Publisher |
Scientific Publishing House “SciView”
TNTU |
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