Cavitation erosion resistance of a-C:H coatings produced by PECVD on stainless steel and NiTi substrates
The resistance against cavitation erosion of hydrogenated a-C:H coated materials coated by PECVD process has been evaluated. Coatings of thicknesses between 50 and 300 nm were deposited on a pseudoelastic NiTi and two stainless steel substrates and were tested by vibratory cavitation. The results sh...
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| Published in: | Surface & coatings technology Vol. 204; no. 21; pp. 3418 - 3424 |
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| Abstract | The resistance against cavitation erosion of hydrogenated a-C:H coated materials coated by PECVD process has been evaluated. Coatings of thicknesses between 50 and 300
nm were deposited on a pseudoelastic NiTi and two stainless steel substrates and were tested by vibratory cavitation. The results show that the incubation periods of the tested coatings deposited on steel substrates were differently modified as the coating thickness was increased depending on the type of steel substrate. On the other hand, a-C:H coatings below a critical thickness deposited on pseudoelastic NiTi exhibit an excellent resistance against cavitation erosion. The outstanding results observed in a-C:H coatings deposited on NiTi are attributed to the coating capability of copying the reversible deformation that takes place in the metallic substrate combined with a strong adhesive connection. Based on the above results, a promising application potential of a-C:H on pseudoelastic shape memory substrates is expected. |
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| AbstractList | The resistance against cavitation erosion of hydrogenated a-C:H coated materials coated by PECVD process has been evaluated. Coatings of thicknesses between 50 and 300nm were deposited on a pseudoelastic NiTi and two stainless steel substrates and were tested by vibratory cavitation. The results show that the incubation periods of the tested coatings deposited on steel substrates were differently modified as the coating thickness was increased depending on the type of steel substrate. On the other hand, a-C:H coatings below a critical thickness deposited on pseudoelastic NiTi exhibit an excellent resistance against cavitation erosion. The outstanding results observed in a-C:H coatings deposited on NiTi are attributed to the coating capability of copying the reversible deformation that takes place in the metallic substrate combined with a strong adhesive connection. Based on the above results, a promising application potential of a-C:H on pseudoelastic shape memory substrates is expected. The resistance against cavitation erosion of hydrogenated a-C:H coated materials coated by PECVD process has been evaluated. Coatings of thicknesses between 50 and 300 nm were deposited on a pseudoelastic NiTi and two stainless steel substrates and were tested by vibratory cavitation. The results show that the incubation periods of the tested coatings deposited on steel substrates were differently modified as the coating thickness was increased depending on the type of steel substrate. On the other hand, a-C:H coatings below a critical thickness deposited on pseudoelastic NiTi exhibit an excellent resistance against cavitation erosion. The outstanding results observed in a-C:H coatings deposited on NiTi are attributed to the coating capability of copying the reversible deformation that takes place in the metallic substrate combined with a strong adhesive connection. Based on the above results, a promising application potential of a-C:H on pseudoelastic shape memory substrates is expected. |
| Author | Pohl, M. Winter, J. Stella, J. Schauer, J.-C. Gerke, L. |
| Author_xml | – sequence: 1 givenname: L. surname: Gerke fullname: Gerke, L. email: gerke@wp.rub.de organization: Chair of Materials Testing, Faculty of Mechanical Engineering, Ruhr-University Bochum, 44780 Bochum, Germany – sequence: 2 givenname: J. surname: Stella fullname: Stella, J. email: jstella@usb.ve organization: Departamento de Ciencias de los Materiales, Universidad Simón Bolívar, Caracas 1080, Venezuela – sequence: 3 givenname: J.-C. surname: Schauer fullname: Schauer, J.-C. organization: Institute for Experimental Physics II, Faculty of Physics and Astronomy, Ruhr-University Bochum, 44780 Bochum, Germany – sequence: 4 givenname: M. surname: Pohl fullname: Pohl, M. organization: Chair of Materials Testing, Faculty of Mechanical Engineering, Ruhr-University Bochum, 44780 Bochum, Germany – sequence: 5 givenname: J. surname: Winter fullname: Winter, J. organization: Institute for Experimental Physics II, Faculty of Physics and Astronomy, Ruhr-University Bochum, 44780 Bochum, Germany |
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| Keywords | DLC coatings PECVD NiTi Cavitation erosion Stainless steel Synthetic diamond Mechanical properties Surface treatments Coatings Diamond structure Carbon Cavitation Stainless steels CVD Amorphous hydrogenated material Wear Wear resistance Erosion Tribology |
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| SubjectTerms | Applied sciences Cavitation erosion Coatings Contact of materials. Friction. Wear Cross-disciplinary physics: materials science; rheology Deposition DLC coatings Exact sciences and technology Intermetallics Materials science Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology Metals. Metallurgy Nickel base alloys Nickel compounds Nickel titanides NiTi PECVD Physics Production techniques Shape memory alloys Stainless steel Surface treatment Surface treatments Titanium compounds |
| Title | Cavitation erosion resistance of a-C:H coatings produced by PECVD on stainless steel and NiTi substrates |
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