Erosion–corrosion of HVOF-sprayed Fe-based amorphous metallic coating under impingement by a sand-containing NaCl solution

•The coating shows higher resistance to slurry impingement than 304 stainless steel.•The mass loss of the coating reaches the peak at an impact angle of 90°.•Two impingement mechanisms of the coating were found out at various impact angles.•Critical flow velocities were studied using potentiostatic...

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Published inCorrosion science Vol. 76; pp. 337 - 347
Main Authors Zheng, Z.B., Zheng, Y.G., Sun, W.H., Wang, J.Q.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.11.2013
Elsevier
Subjects
A. Metal coatings
A. Stainless steel
Applied sciences
Austenitic stainless steels
B. Erosion
B. Polarisation
B. Potentiostatic
C. Passivity
Coating
Corrosion
Corrosion environments
Critical flow
Erosion-corrosion
Exact sciences and technology
Impact angle
Impact velocity
Impingement
Metallic coatings
Metals. Metallurgy
Production techniques
Steels
Surface treatment
C. Passivity
A. Metal coatings
B. Erosion
B. Potentiostatic
B. Polarisation
A. Stainless steel
HVOF spraying
Hot spraying
Sodium chloride
Spray coating
Passivity
Surface treatment
Metal coating
Stainless steel
Erosion corrosion
Erosion
Passivation
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Abstract •The coating shows higher resistance to slurry impingement than 304 stainless steel.•The mass loss of the coating reaches the peak at an impact angle of 90°.•Two impingement mechanisms of the coating were found out at various impact angles.•Critical flow velocities were studied using potentiostatic tests under impingement.•Passive films formed at different impact velocities are of different thicknesses. Erosion–corrosion (E–C) behaviour of a Fe-based amorphous metallic coating (AMC) compared with 304 stainless steel (304 s.s.) was studied under a slurry impingement condition in a sand-containing NaCl solution. AMC exhibited much higher resistance to E–C than 304 s.s. The weight loss reached the maximum at an impact angle of 90° and the critical flow velocity was about 15m/s for AMC, while 45° and 9m/s for 304 s.s. The increment in passive current density under impingement for AMC was about 10 times lower than 304 s.s. Passive films formed at different impact velocities were of different thicknesses.
AbstractList Erosion-corrosion (E-C) behaviour of a Fe-based amorphous metallic coating (AMC) compared with 304 stainless steel (304 s.s.) was studied under a slurry impingement condition in a sand-containing NaCl solution. AMC exhibited much higher resistance to E-C than 304 s.s. The weight loss reached the maximum at an impact angle of 90 degree and the critical flow velocity was about 15 m/s for AMC. while 45 degree and 9 m/s for 304 s.s. The increment in passive current density under impingement for AMC was about 10 times lower than 304 s.s. Passive films formed at different impact velocities were of different thicknesses.
•The coating shows higher resistance to slurry impingement than 304 stainless steel.•The mass loss of the coating reaches the peak at an impact angle of 90°.•Two impingement mechanisms of the coating were found out at various impact angles.•Critical flow velocities were studied using potentiostatic tests under impingement.•Passive films formed at different impact velocities are of different thicknesses. Erosion–corrosion (E–C) behaviour of a Fe-based amorphous metallic coating (AMC) compared with 304 stainless steel (304 s.s.) was studied under a slurry impingement condition in a sand-containing NaCl solution. AMC exhibited much higher resistance to E–C than 304 s.s. The weight loss reached the maximum at an impact angle of 90° and the critical flow velocity was about 15m/s for AMC, while 45° and 9m/s for 304 s.s. The increment in passive current density under impingement for AMC was about 10 times lower than 304 s.s. Passive films formed at different impact velocities were of different thicknesses.
Author Zheng, Y.G.
Wang, J.Q.
Sun, W.H.
Zheng, Z.B.
Author_xml – sequence: 1
  givenname: Z.B.
  surname: Zheng
  fullname: Zheng, Z.B.
  organization: State Key Laboratory for Corrosion and Protection, Institute of Metal Research, Chinese Academy of Sciences, 62 Wencui Road, Shenyang 110016, PR China
– sequence: 2
  givenname: Y.G.
  surname: Zheng
  fullname: Zheng, Y.G.
  email: ygzheng@imr.ac.cn
  organization: State Key Laboratory for Corrosion and Protection, Institute of Metal Research, Chinese Academy of Sciences, 62 Wencui Road, Shenyang 110016, PR China
– sequence: 3
  givenname: W.H.
  surname: Sun
  fullname: Sun, W.H.
  organization: Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, 72 Wenhua Road, Shenyang 110016, PR China
– sequence: 4
  givenname: J.Q.
  surname: Wang
  fullname: Wang, J.Q.
  organization: Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, 72 Wenhua Road, Shenyang 110016, PR China
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Keywords C. Passivity
A. Metal coatings
B. Erosion
B. Potentiostatic
B. Polarisation
A. Stainless steel
HVOF spraying
Hot spraying
Sodium chloride
Spray coating
Passivity
Surface treatment
Metal coating
Stainless steel
Erosion corrosion
Erosion
Passivation
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Snippet •The coating shows higher resistance to slurry impingement than 304 stainless steel.•The mass loss of the coating reaches the peak at an impact angle of...
Erosion-corrosion (E-C) behaviour of a Fe-based amorphous metallic coating (AMC) compared with 304 stainless steel (304 s.s.) was studied under a slurry...
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StartPage 337
SubjectTerms A. Metal coatings
A. Stainless steel
Applied sciences
Austenitic stainless steels
B. Erosion
B. Polarisation
B. Potentiostatic
C. Passivity
Coating
Corrosion
Corrosion environments
Critical flow
Erosion-corrosion
Exact sciences and technology
Impact angle
Impact velocity
Impingement
Metallic coatings
Metals. Metallurgy
Production techniques
Steels
Surface treatment
Title Erosion–corrosion of HVOF-sprayed Fe-based amorphous metallic coating under impingement by a sand-containing NaCl solution
URI https://dx.doi.org/10.1016/j.corsci.2013.07.006
https://search.proquest.com/docview/1475545919
Volume 76
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