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The paper presents the test results of microstructure and resistance to abrasion and erosive wear of single and double-layer coatings with arc-coated powder wires on the iron matrix. It was shown that adhesion of coatings is in the range of 14.39 – 24.72 MPa. The closed porosity of the coatings determined from SEM images is in the range of 0.69 – 2.45% and was significantly lower than the porosity determined from the images obtained from the optical microscope, which was 5.49 – 8.11%. The 95 MXC coating’s hardness of the matrix was about 100HV0.05 higher compared to the AMI 100 coating matrix. The intensity of the erosion of AMI 100 coatings was lower than the intensity of the erosion of 95 MXC coatings.
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Tom
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285--292
Opis fizyczny
Bibliogr. 20 poz., fig., tab.
Twórcy
autor
- Lublin University of Technology, Faculty of Mechanical Engineering, Department of Materials Engineering, 36 Nadbystrzycka St., 20-618 Lublin, Poland
autor
- Lublin University of Technology, Faculty of Mechanical Engineering, Department of Materials Engineering, 36 Nadbystrzycka St., 20-618 Lublin, Poland
autor
- Lublin University of Technology, Faculty of Mechanical Engineering, Department of Materials Engineering, 36 Nadbystrzycka St., 20-618 Lublin, Poland
Bibliografia
- 1. Hejwowski T.: Nowoczesne powłoki nakładane cieplnie odporne na zużycie ścierne i erozyjne. Politechnika Lubelska, Lublin 2013
- 2. Solski P.: Zużycie cierne metali, WNT Warszawa 1968.
- 3. Winter, R.E., Hutchings, I.M.: Solid particle erosion studies using single angular particles. Wear 1974, vol. 29, str. 181 – 194.
- 4. Parslow G.I., Stephenson D.J., Strutt J.E., Tetlow S.: Investigation of solid particle erosion in components of complex geometry. Wear 1999, vol. 233–235, str. 737–745.
- 5. Bergmann C.P., Vincenzi J.: Protection against erosive wear using thermal sprayed cermet. A review. Springer-Verlag, Berlin, 2011.
- 6. Hejwowski T.: Studium procesów zużywania erozyjnego, ściernego i zmęczenia cieplnego elementów maszyn oraz kształtowanie struktur o korzystnych właściwościach eksploatacyjnych. Wydawnictwo Uczelniane Politechniki Lubelskiej 2003.
- 7. Venugopal K., Agrawal M.: Evaluation of arc sprayed coatings for erosion protection of tubes in atmospheric fluidized bed combustion (AFBC) boilers. Wear 2008, vol. 264, str. 139–145.
- 8. Lima R.S., Marple B.R.: Thermal spray coatings engineered from nanostructured ceramic agglomerated powders for structural, thermal barrier and biomedical applications: a review. Journal of Thermal Spray Technology 2007, vol. 16, nr 1, str. 40–63.
- 9. Xuemei S., Fangli M.,Mingguang K.,Ziwei L.,Liping H.,Xuebin Z.,Yi Z.: Relationship between cracks and microstructures in APS YSZ coatings at elevated temperatures. Materials Characterization, Volume 131, September 2017, Pages 277–284.
- 10. Deshpande S., Sampath S., Zhang H.: Mechanisms of oxidation and its role in microstructural evolution of metallic thermal spray coatings – case study for Ni-Al. Surf. Coat. Technol., 200 (2006), pp. 5395–5406
- 11. Chao Z.,Wei T. i inni: Microstructure and porosity evaluation in laser-cladding deposited Ni- based coatings. Surface and Coatings Technology. Volume 294, 25 May 2016, Pages 122–130
- 12. F. Cernuschi, I.O. Golosnoy, P. Bison, A. Moscatelli, R. Vassen, H.P. Bossmann, S. Capelli: Microstructural characterization of porous thermal barrier coatings by IR gas porosimetry and sintering forecasts. Acta Mater., 61 (1) (2013), pp. 248–262
- 13. Wang Y., Gauvin R. i inni: Panoramic statistics on porosity and microstructural features of plasma sprayed Y2O3-ZrO2 thermal barrier coatings. Surface and Coatings Technology. Volume 316, 25 April 2017, Pages 239–245
- 14. Giovanni B., Marcello B., Luca L., Tiziano M., Ville M., Rinaldo R., Paolo S., Petri V.: Tribology of FeVCrC coatings deposited by HVOF and HVAF thermal spray processes. WearVolumes 394–395, 15 January 2018, Pages 113–133.
- 15. Lei Q.,Yuping W.,Sheng H.,Jianfeng Z.,Wei S.,Yugui Z.: Relationships between spray parameters, microstructures and ultrasonic cavitation erosion behavior of HVOF sprayed Fe- based amorphous/nanocrystalline coatings. Ultrasonics Sonochemistry. Volume 39, November 2017, Pages 39–46
- 16. G. Bolelli, B. Bonferroni, G. Coletta, L. Lusvarghi, F. PitaccoWear and corrosion behaviour of HVOF WC-CoCr/CVD DLC hybrid coating systems deposited onto aluminium substrate. Surf. Coat. Technol., 205 (2011), pp. 4211–4220
- 17. F. Madah, C. Dehghanian, A.A. Amadeh: Investigations on the wear mechanisms of electroless Ni-B coating during dry sliding and endurance life of the worn surfaces. Surf. Coat. Technol., 282 (2015), pp. 6–15
- 18. M. Magnani, P.H. Suegama, N. Espallargas, S. Dosta, C.S. Fugivara, J.M. Guilemany, A.V. B enedetti: Influence of HVOF parameters on the corrosion and wear resistance of WC-Co coatings sprayed on AA7050 T7.Surf. Coat. Technol., 202 (2008), pp. 4746–4757
- 19. Shigeyasu A.,Tohru H.: Planar fractal characteristics of blasted surfaces and its relation with adhesion strength of coatings. Surface and Coatings Technology. Volume 130, Issues 2–3, 21 August 2000, Pages 158–163
- 20. Drábik M.,Truchlý M.,Ballo V.,Roch T., Kvetková L.,Kúš P.: Influence of substrate material and its plasma pretreatment on adhesion and properties of WC/a-C:H nanocomposite coatings deposited at low temperature. Surface and Coatings Technology. Volume 333, 15 January 2018, Pages 138–147
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-157ae995-e714-45b1-8fe8-5ddf3382905e
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