Effect of powder structure on microstructure of the oxide scales formed on cold-sprayed NiCrAlY coatings

Qiang Zhang; Chang Jiu Li; Guan Jun Yang; Cheng Xin Li

doi:10.1142/S0217979210066057

Effect of powder structure on microstructure of the oxide scales formed on cold-sprayed NiCrAlY coatings

School of Materials Science and Engineering

Xi'an Jiaotong University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Commercially available, gas-atomized NiCrAlY powder was milled in Ar atmosphere to prepare nanostructured powder. The NiCrAlY coatings in the conventional microstructure and the nanostructure were subsequently deposited by cold spraying using the as-atomized powder and milled powder. The influence of the powder structure on the microstructure of cold-sprayed coating was investigated. It was found that dense NiCrAlY coatings can be cold-sprayed using two powders. Isothermal oxidation was performed at 1000°C in air for up to 500 hours. The results showed that the growth rate of the oxide on the nanostructured NiCrAlY coating was almost comparable to that of the conventional NiCrAlY coating. A uniform Al₂O₃ layer was formed on the surface of the nanostructured coating surface. Moreover, a dual-subscale oxide was formed on conventional coating composing of an inner Al₂O ₃ oxide and an external mixed oxide.

Original language	English
Pages (from-to)	3041-3046
Number of pages	6
Journal	International Journal of Modern Physics B
Volume	24
Issue number	15-16
DOIs	https://doi.org/10.1142/S0217979210066057
State	Published - 30 Jun 2010

Keywords

Nanostructured coatings
NiCrAlY
cold spray
thermally grown oxide

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title = "Effect of powder structure on microstructure of the oxide scales formed on cold-sprayed NiCrAlY coatings",

abstract = "Commercially available, gas-atomized NiCrAlY powder was milled in Ar atmosphere to prepare nanostructured powder. The NiCrAlY coatings in the conventional microstructure and the nanostructure were subsequently deposited by cold spraying using the as-atomized powder and milled powder. The influence of the powder structure on the microstructure of cold-sprayed coating was investigated. It was found that dense NiCrAlY coatings can be cold-sprayed using two powders. Isothermal oxidation was performed at 1000°C in air for up to 500 hours. The results showed that the growth rate of the oxide on the nanostructured NiCrAlY coating was almost comparable to that of the conventional NiCrAlY coating. A uniform Al2O3 layer was formed on the surface of the nanostructured coating surface. Moreover, a dual-subscale oxide was formed on conventional coating composing of an inner Al2O 3 oxide and an external mixed oxide.",

keywords = "Nanostructured coatings, NiCrAlY, cold spray, thermally grown oxide",

author = "Qiang Zhang and Li, \{Chang Jiu\} and Yang, \{Guan Jun\} and Li, \{Cheng Xin\}",

year = "2010",

month = jun,

day = "30",

doi = "10.1142/S0217979210066057",

language = "英语",

volume = "24",

pages = "3041--3046",

journal = "International Journal of Modern Physics B",

issn = "0217-9792",

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TY - JOUR

T1 - Effect of powder structure on microstructure of the oxide scales formed on cold-sprayed NiCrAlY coatings

AU - Zhang, Qiang

AU - Li, Chang Jiu

AU - Yang, Guan Jun

AU - Li, Cheng Xin

PY - 2010/6/30

Y1 - 2010/6/30

N2 - Commercially available, gas-atomized NiCrAlY powder was milled in Ar atmosphere to prepare nanostructured powder. The NiCrAlY coatings in the conventional microstructure and the nanostructure were subsequently deposited by cold spraying using the as-atomized powder and milled powder. The influence of the powder structure on the microstructure of cold-sprayed coating was investigated. It was found that dense NiCrAlY coatings can be cold-sprayed using two powders. Isothermal oxidation was performed at 1000°C in air for up to 500 hours. The results showed that the growth rate of the oxide on the nanostructured NiCrAlY coating was almost comparable to that of the conventional NiCrAlY coating. A uniform Al2O3 layer was formed on the surface of the nanostructured coating surface. Moreover, a dual-subscale oxide was formed on conventional coating composing of an inner Al2O 3 oxide and an external mixed oxide.

AB - Commercially available, gas-atomized NiCrAlY powder was milled in Ar atmosphere to prepare nanostructured powder. The NiCrAlY coatings in the conventional microstructure and the nanostructure were subsequently deposited by cold spraying using the as-atomized powder and milled powder. The influence of the powder structure on the microstructure of cold-sprayed coating was investigated. It was found that dense NiCrAlY coatings can be cold-sprayed using two powders. Isothermal oxidation was performed at 1000°C in air for up to 500 hours. The results showed that the growth rate of the oxide on the nanostructured NiCrAlY coating was almost comparable to that of the conventional NiCrAlY coating. A uniform Al2O3 layer was formed on the surface of the nanostructured coating surface. Moreover, a dual-subscale oxide was formed on conventional coating composing of an inner Al2O 3 oxide and an external mixed oxide.

KW - Nanostructured coatings

KW - NiCrAlY

KW - cold spray

KW - thermally grown oxide

UR - https://www.scopus.com/pages/publications/77956030089

U2 - 10.1142/S0217979210066057

DO - 10.1142/S0217979210066057

M3 - 文章

AN - SCOPUS:77956030089

SN - 0217-9792

VL - 24

SP - 3041

EP - 3046

JO - International Journal of Modern Physics B

JF - International Journal of Modern Physics B

IS - 15-16

ER -

Effect of powder structure on microstructure of the oxide scales formed on cold-sprayed NiCrAlY coatings

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Keywords

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