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The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method

Yıl 2019, , 87 - 93, 01.03.2019
https://doi.org/10.2339/politeknik.386965

Öz

Protective coatings produced by using Physical Vapour
Deposition (PVD) method can increase the life time of the components.
Therefore; in this study, ≈0.25
mm thickness ZrN coatings are applied on Glass Fiber
Reinforced Epoxy (GF/EP) and Carbon Fiber Reinforced Epoxy (CF/EP) composites
by magnetron sputtering to gain an improved understanding of the erosion
resistance. The impingement angles used in the tests were 30
°, 60° and 90°, while the impact velocity was 53 m/s. Al2O3
abrasive particles with an average diameter of 200
mm was used. All
test specimens regardless of their various properties exhibit maximum erosion
rates at 30
° impingement angle and thus exhibiting similar
behavior as that observed for ductile materials. Optic microscopic views were
performed on the surfaces in order to characterize the erosion mechanism. The
erodent particles of the both coating layer and composite matrix were found of
main role in governing the wear progression. The measured erosion rates were
sensitively correlated with the material removal process in order to explain
the changes within the coated interfaces.

Kaynakça

  • [1] Srivastava V.K., “Effects of wheat starch on erosive wear of E-glass fiber reinforced epoxy resin composite materials”, Materials Science Engineering: A, 435-436: 282-287, (2006).
  • [2] Mohan N., Mahesha C. R., Rajaprakash B. M., “Erosive wear behaviour of WC filled glass epoxy composites”, Procedia Engineering, 68: 694-702, (2013).
  • [3] Yang L., Li H.L., Zhou Y.C., Zhu W., Wei Y.G., Zhang J.P.“Erosion failure mechanism of EB-PVD thermal barrier coatings with real morphology”, Wear, 392-393: 99-108, (2017).
  • [4] Rout A.K. and Satapathy A., “Study on mechanical and tribo-performance of rice-husk filled glass–epoxy hybrid composites”, Materials & Design, 41: 131-141, (2012).
  • [5] Mahapatra S.S., Patnaik A., “Study on mechanical and erosion wear behavior of hybrid composites using Taguchi experimental design”, Materials & Design, 30(8): 2791-2801, (2009).
  • [6] Bagci M., “Determination of solid particle erosion with Taguchi optimization approach of hybrid composite systems”, Tribology International, 94: 336-345, (2016).
  • [7] Shin D., Hamed A., “Influence of micro–structure on erosion resistance of plasma sprayed 7YSZ thermal barrier coating under gas turbine operating conditions”, Wear, 396-397: 34-47, (2018).
  • [8] Maurer C., Schulz U., “Solid particle erosion of thick PVD coatings on CFRP”, Wear, 317: 246-253, (2014). [9] ASTM D3039 / D3039M-17, “Standard test method for tensile properties of polymer matrix composite materials”, ASTM International, West Conshohocken, PA, (2017). www.astm.org/cgi-bin/resolver.cgi?D3039D3039M-17
  • [10] ASTM D2583-13a, “Standard test method for indentation hardness of rigid plastics by means of a Barcol impressor”, ASTM International, West Conshohocken, PA, (2013). www.astm.org/cgi-bin/resolver.cgi?D2583-13a
  • [11] ASTM G76–95, “Standard test method for conducting erosion tests by solid particle impingement using gas jets”, ASTM International, West Conshohocken, PA, (2000). www.astm.org/cgi-bin/resolver.cgi?G76-95
  • [12] Ruff A. W., Ives L.K., “Measurement of solid particle velocity in erosive wear”, Wear, 35: 195-199, (1975).
  • [13] Finnie I., “Some reflections on the past and future of erosion”, Wear, 186-187(1): 1-10, (1995).
  • [14] G., Roy M., “Solid particle erosion behaviour of metallic materials at room and elevated temperatures”, Tribology International, 30(5): 339-359, (1997).
  • [15] Hutchings I.M., “Ductile-brittle transitions and wear maps for the erosion and abrasion of brittle material”, Journal of Physics D: Applied Physics, 25: 212-221, (1992).
  • [16] Bagci M., “Influence of fiber orientation on solid particle erosion of uni/multidirectional carbon fiber/glass fiber reinforced epoxy composites”, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 231(5): 594-603, (2017).
  • [17] Azar G.T.P., Yelkarasi C., Ürgen M., “The role of droplets on the cavitation erosion damage of TiN coatings produced with cathodic arc physical vapor deposition”, Surface and Coatings Technology, 322: 211-217, (2017).

The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method

Yıl 2019, , 87 - 93, 01.03.2019
https://doi.org/10.2339/politeknik.386965

Öz

Protective coatings produced by using Physical Vapour
Deposition (PVD) method can increase the life time of the components.
Therefore; in this study, ≈0.25
mm thickness ZrN coatings are applied on Glass Fiber
Reinforced Epoxy (GF/EP) and Carbon Fiber Reinforced Epoxy (CF/EP) composites
by magnetron sputtering to gain an improved understanding of the erosion
resistance. The impingement angles used in the tests were 30
°, 60° and 90°, while the impact velocity was 53 m/s. Al2O3
abrasive particles with an average diameter of 200
mm was used. All
test specimens regardless of their various properties exhibit maximum erosion
rates at 30
° impingement angle and thus exhibiting similar
behavior as that observed for ductile materials. Optic microscopic views were
performed on the surfaces in order to characterize the erosion mechanism. The
erodent particles of the both coating layer and composite matrix were found of
main role in governing the wear progression. The measured erosion rates were
sensitively correlated with the material removal process in order to explain
the changes within the coated interfaces.

Kaynakça

  • [1] Srivastava V.K., “Effects of wheat starch on erosive wear of E-glass fiber reinforced epoxy resin composite materials”, Materials Science Engineering: A, 435-436: 282-287, (2006).
  • [2] Mohan N., Mahesha C. R., Rajaprakash B. M., “Erosive wear behaviour of WC filled glass epoxy composites”, Procedia Engineering, 68: 694-702, (2013).
  • [3] Yang L., Li H.L., Zhou Y.C., Zhu W., Wei Y.G., Zhang J.P.“Erosion failure mechanism of EB-PVD thermal barrier coatings with real morphology”, Wear, 392-393: 99-108, (2017).
  • [4] Rout A.K. and Satapathy A., “Study on mechanical and tribo-performance of rice-husk filled glass–epoxy hybrid composites”, Materials & Design, 41: 131-141, (2012).
  • [5] Mahapatra S.S., Patnaik A., “Study on mechanical and erosion wear behavior of hybrid composites using Taguchi experimental design”, Materials & Design, 30(8): 2791-2801, (2009).
  • [6] Bagci M., “Determination of solid particle erosion with Taguchi optimization approach of hybrid composite systems”, Tribology International, 94: 336-345, (2016).
  • [7] Shin D., Hamed A., “Influence of micro–structure on erosion resistance of plasma sprayed 7YSZ thermal barrier coating under gas turbine operating conditions”, Wear, 396-397: 34-47, (2018).
  • [8] Maurer C., Schulz U., “Solid particle erosion of thick PVD coatings on CFRP”, Wear, 317: 246-253, (2014). [9] ASTM D3039 / D3039M-17, “Standard test method for tensile properties of polymer matrix composite materials”, ASTM International, West Conshohocken, PA, (2017). www.astm.org/cgi-bin/resolver.cgi?D3039D3039M-17
  • [10] ASTM D2583-13a, “Standard test method for indentation hardness of rigid plastics by means of a Barcol impressor”, ASTM International, West Conshohocken, PA, (2013). www.astm.org/cgi-bin/resolver.cgi?D2583-13a
  • [11] ASTM G76–95, “Standard test method for conducting erosion tests by solid particle impingement using gas jets”, ASTM International, West Conshohocken, PA, (2000). www.astm.org/cgi-bin/resolver.cgi?G76-95
  • [12] Ruff A. W., Ives L.K., “Measurement of solid particle velocity in erosive wear”, Wear, 35: 195-199, (1975).
  • [13] Finnie I., “Some reflections on the past and future of erosion”, Wear, 186-187(1): 1-10, (1995).
  • [14] G., Roy M., “Solid particle erosion behaviour of metallic materials at room and elevated temperatures”, Tribology International, 30(5): 339-359, (1997).
  • [15] Hutchings I.M., “Ductile-brittle transitions and wear maps for the erosion and abrasion of brittle material”, Journal of Physics D: Applied Physics, 25: 212-221, (1992).
  • [16] Bagci M., “Influence of fiber orientation on solid particle erosion of uni/multidirectional carbon fiber/glass fiber reinforced epoxy composites”, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, 231(5): 594-603, (2017).
  • [17] Azar G.T.P., Yelkarasi C., Ürgen M., “The role of droplets on the cavitation erosion damage of TiN coatings produced with cathodic arc physical vapor deposition”, Surface and Coatings Technology, 322: 211-217, (2017).
Toplam 16 adet kaynakça vardır.

Ayrıntılar

Konular Mühendislik
Bölüm Araştırma Makalesi
Yazarlar

Mehmet Bağcı

Yayımlanma Tarihi 1 Mart 2019
Gönderilme Tarihi 8 Kasım 2017
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

APA Bağcı, M. (2019). The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method. Politeknik Dergisi, 22(1), 87-93. https://doi.org/10.2339/politeknik.386965
AMA Bağcı M. The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method. Politeknik Dergisi. Mart 2019;22(1):87-93. doi:10.2339/politeknik.386965
Chicago Bağcı, Mehmet. “The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method”. Politeknik Dergisi 22, sy. 1 (Mart 2019): 87-93. https://doi.org/10.2339/politeknik.386965.
EndNote Bağcı M (01 Mart 2019) The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method. Politeknik Dergisi 22 1 87–93.
IEEE M. Bağcı, “The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method”, Politeknik Dergisi, c. 22, sy. 1, ss. 87–93, 2019, doi: 10.2339/politeknik.386965.
ISNAD Bağcı, Mehmet. “The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method”. Politeknik Dergisi 22/1 (Mart 2019), 87-93. https://doi.org/10.2339/politeknik.386965.
JAMA Bağcı M. The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method. Politeknik Dergisi. 2019;22:87–93.
MLA Bağcı, Mehmet. “The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method”. Politeknik Dergisi, c. 22, sy. 1, 2019, ss. 87-93, doi:10.2339/politeknik.386965.
Vancouver Bağcı M. The Effects of Solid Particle Erosion of ZrN Coating Material on GF/EP and CF/EP Composites by Using PVD Method. Politeknik Dergisi. 2019;22(1):87-93.
 
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