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Authors have produced new polymer-based composite material DK-6(PT) for substitution of Moglice (Diamant) polymer. We manufactured and used sliding-friction test apparatus (pin-on-disc) capable of testing three specimens simultaneously, much reducing time for the test. The monitoring of the material curing process and the Shore hardness test indicate minor difference from reference material. Measurements were carried out during the curing period, since it is important to know change in this parameter over time. The wear test proved that DK-6(PT) composite in the long-time test has good wear resistance: over 80 km of the friction path, the wear loss of both materials is approximately the same. Furthermore, the friction factor of DK-6(PT) is 5–10% less than that of Moglice. Thus, the studied new polymeric composite may compete with well-known material Moglice and significantly cut the expenses for reconditioning of worn slide ways of metal working equipment.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
149--157
Opis fizyczny
Bibliogr. 19 poz., fig., tab.
Twórcy
autor
- Department of Fundamentals of Technology, Lublin University of Technology, ul.Nadbystrzycka 38A, 20-618 Lublin, Poland
autor
- Department of Mechanical Equipment of Ferrous Metallurgy Enterprises, Pryazovskyi State Technical University, Universytetska str., 7, 87555, Mariupol, Ukraine
autor
- Department of Mechanical Equipment of Ferrous Metallurgy Enterprises, Pryazovskyi State Technical University, Universytetska str., 7, 87555, Mariupol, Ukraine
autor
- Department of Engineering, Standardization and Certification, National Aviation University, Liubomyra Husara ave, 1, Kyiv, 02000, Ukraine
autor
- School of Aerospace, Xi'an Jiaotong University, West Xianning Road, 28, Xi'an, 710049, China
Bibliografia
- 1. Sviridenok A.I., Myshkin N.K., Kovaleva I.N. Latest Developments in Tribology. Journal of Friction Wear. 2015; 36: 449–453.
- 2. Fedirko V.M., Pohrelyuk I.M., Luk’yanenko O.H., Lavrys’ S.M., Kindrachuk M.V., Dukhota O.I., Tisov O.V., Zahrebel’nyi V.V. Thermodiffusion Saturation of the Surface of VT22 Titanium Alloy From a Controlled Oxygen–Nitrogen-Containing Atmosphere in the Stage of Aging. Materials Science. 2018; 53(5): 691–701.
- 3. Kindrachuk M.V., Volchenko O.I., Volchenko D.O., Volchenko N.O., Polyakov P.O., Kornienko A.O., Yurchuk A.O. Polymeric Materials Modified by Semiconductor Substances in Friction Units of Braking Devices, Journal of Nanoand Electronic Physics. 2018; 11(3): 03014.
- 4. Volchenko D.A., Kindrachuk M.V., Volchenko M.A., Nikipchuk S.V., Nasirova M.M., Klochko N.B., Yurchuk A.O. Electrothermomechanical Friction of Wet Elements of Automotive Disc-Shoe Brakes. Journal of Nanoand Electronic Physics. 2020; 12(6): 06020-1–06020-8.
- 5. Kindrachuk M., Volchenko A., Volchenko D., Tisov O., Kornienko A. Polymeres with Enhanced Energy Capacity Modified by Semiconductor Materials. Functional Materials. 2019; 26(3): 629–634.
- 6. Guniayev G.M., Krivonos V.V., Rumiantsev A.F., Zhelezina G.F. Polimeric Composite Materials in Aircraft Structure. Conversion in Ngineering. 2004; 4: 65. [In Russian]
- 7. Talape A.V., Kare R.N., Ukirde V.U. Recent Development in Aerospace Materials – Composite materials. International. Journal of Engineering Technology Science and Research. 2017; 4(12): 1385–1390.
- 8. Krzyzak A., Kosicka E., Borowiec M., Szczepaniak R. Selected Tribological Properties and Vibrations in the Base Resonance Zone of the Polymer Composite Used in the Aviation Industry. Materials. 2020; 13(6): 1364.
- 9. Zhang X., Chen Y., Hu J. Recent Advances in the Development of Aerospace Materials. Progress in Aerospace Sciences. 2018; 97: 22–34.
- 10. Biba Y.L., Sinkevich D.V., Yurkevich S.N. The Review of Application of Metal-Polymer Materials Manufactured by Diamant Metallplastic Gmbh (Germany) for Repair and Restoration on Enterprises of Belarus. Мetalworking. 2004; 6: 41–44. [In Russian]
- 11. Ishchenko A.A., Radionenko A.V., Ishchenko E.A. The Study of Application of Polymeric Material «Moglice» for Restoration of Support Slideways of Metalworking Machine Tools. Problems of Friction and Wear. 2014; 62: 23–29. [In Russian]
- 12. Iliuţă V., Rîpă M., Preda A., Andrei G. Friction and Wear Behavior of Moglice Polymer Composite Through Dry Sliding Ball-on-Flat Reciprocating Test. Applied Mechanics and Materials. 2015: 808: 137–142.
- 13. Ishchenko A., Radionenko A., Ischenko E. Tribotechnical Research into Friction Surfaces Based on Polymeric Composite Materials. Eastern-European Journal of Enterprise Technologies. 2017; 6; 12(90): 12–19.
- 14. Czerniec M., Shil`ko S., Paszeczko V. Study of Wear Resistance of Reinforced Polyamide Composites for Metal-Polymer Gear Drives. Tribologia. 2018; 3: 19–23.
- 15. Chernets M.V., Shil’ko S.V., Pashechko M.I., Barszcz M. Wear Resistance of Glassand Carbon-Filled Polyamide Composites for MetalPolymer Gears. Journal of Friction and Wear. 2018; 39(5): 361–364.
- 16. Tkadletz M., Schalk N., Daniel R., Keckes J., Czettl C., Mitterer C. Advanced Characterization Methods for Wear Resistant Hard Coatings: A Review on Recent Progress. Surface Coatings Technology. 2016; 285: 31–46.
- 17. Radionenko O., Kindrachuk M., Tisov O., Kryzhanovskyi A. Features of Transition Modes of Friction Surfaces With Partially Regular Microrelief. Aviation. 2018; 22: 86–92.
- 18. Ishchenko А.О., Radionenko O.V., Ulayeva T.O. Patent 121076 of Ukraine MPC G01N 19/02 G01N 3/56. Tribometer for Wear Testing of Materials № U 2017 05777; applied 12.06.2017; published 27.11.2017, bulletin, 22.
- 19. Ishchenko A.A., Ishchenko E.A. Repair of Metal Working Machine Tools by Composite Materials. Mariupol MSTU; 2018.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ccdc8c0b-c4fe-42d7-a374-3ff17bd5144d