Effects of passivation on the properties of Ni-P alloy coating deposited on CFs reinforced PEEK

Electroless Ni-P alloy coating was deposited on carbon fibers (CFs) reinforced polyether ether ketone (PEEK), and a transparent passive film was formed on it. Effects of passivation on the oxidation behavior and electromagnetic interference shielding effectiveness (EMI SE) of Ni-P alloy coatings wer...

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Published inSurface & coatings technology Vol. 232; pp. 269 - 274
Main Authors Zhou, Baiyu, Kong, Lingwei, Niu, Liyuan, Lian, Jianshe, Li, Guangyu
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.10.2013
Elsevier
Subjects
Applied sciences
Coating
Corrosion
Corrosion environments
Corrosion resistance
Cross-disciplinary physics: materials science; rheology
Deposition
Electroless deposition
Electromagnetic interference
Electromagnetic interference shielding effectiveness
Exact sciences and technology
Materials science
Metallic coatings
Metals. Metallurgy
Nickel base alloys
Oxidation
Oxidation behavior
Passivation
Physics
Polyetheretherketones
Production techniques
Surface treatment
Surface treatments
X-rays
Corrosion resistance
Oxidation behavior
Electromagnetic interference shielding effectiveness
Electroless deposition
Passivation
Nickel base alloys
Surface treatments
Shielding
Electromagnetic shielding
Metal coating
Corrosion
Chemical deposition
Oxidation
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Abstract Electroless Ni-P alloy coating was deposited on carbon fibers (CFs) reinforced polyether ether ketone (PEEK), and a transparent passive film was formed on it. Effects of passivation on the oxidation behavior and electromagnetic interference shielding effectiveness (EMI SE) of Ni-P alloy coatings were investigated. The phase structure of the Ni-P coating was investigated by X-ray diffractometry (XRD). Scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) showed that dense and uniform nodules presented in the coating, and chromate (VI) passive film formed onto Ni-P alloy coating. Electrochemical tests showed that passivation improved the corrosion resistance and delayed the oxidation of the Ni-P alloy coating. The EMI SE test proved that the passivation enhanced EMI SE greatly because passive film effectively restrained the oxidation of the Ni-P alloy coating. All the data proved that the passivated Ni-P alloy coating to be potential shielding material under oxidation environment. •A passive Ni-P coating was electrolessly formed on PEEK.•Passivated coating exhibits better corrosion resistance than as-plated coating.•The oxidation resistance was improved after passivation.•Passivated coating presents superior EMI SE after oxidation.
AbstractList Electroless Ni-P alloy coating was deposited on carbon fibers (CFs) reinforced polyether ether ketone (PEEK), and a transparent passive film was formed on it. Effects of passivation on the oxidation behavior and electromagnetic interference shielding effectiveness (EMI SE) of Ni-P alloy coatings were investigated. The phase structure of the Ni-P coating was investigated by X-ray diffractometry (XRD). Scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) showed that dense and uniform nodules presented in the coating, and chromate (VI) passive film formed onto Ni-P alloy coating. Electrochemical tests showed that passivation improved the corrosion resistance and delayed the oxidation of the Ni-P alloy coating. The EMI SE test proved that the passivation enhanced EMI SE greatly because passive film effectively restrained the oxidation of the Ni-P alloy coating. All the data proved that the passivated Ni-P alloy coating to be potential shielding material under oxidation environment.
Electroless Ni-P alloy coating was deposited on carbon fibers (CFs) reinforced polyether ether ketone (PEEK), and a transparent passive film was formed on it. Effects of passivation on the oxidation behavior and electromagnetic interference shielding effectiveness (EMI SE) of Ni-P alloy coatings were investigated. The phase structure of the Ni-P coating was investigated by X-ray diffractometry (XRD). Scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS) showed that dense and uniform nodules presented in the coating, and chromate (VI) passive film formed onto Ni-P alloy coating. Electrochemical tests showed that passivation improved the corrosion resistance and delayed the oxidation of the Ni-P alloy coating. The EMI SE test proved that the passivation enhanced EMI SE greatly because passive film effectively restrained the oxidation of the Ni-P alloy coating. All the data proved that the passivated Ni-P alloy coating to be potential shielding material under oxidation environment. •A passive Ni-P coating was electrolessly formed on PEEK.•Passivated coating exhibits better corrosion resistance than as-plated coating.•The oxidation resistance was improved after passivation.•Passivated coating presents superior EMI SE after oxidation.
Author Lian, Jianshe
Zhou, Baiyu
Niu, Liyuan
Kong, Lingwei
Li, Guangyu
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Keywords Corrosion resistance
Oxidation behavior
Electromagnetic interference shielding effectiveness
Electroless deposition
Passivation
Nickel base alloys
Surface treatments
Shielding
Electromagnetic shielding
Metal coating
Corrosion
Chemical deposition
Oxidation
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Snippet Electroless Ni-P alloy coating was deposited on carbon fibers (CFs) reinforced polyether ether ketone (PEEK), and a transparent passive film was formed on it....
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SubjectTerms Applied sciences
Coating
Corrosion
Corrosion environments
Corrosion resistance
Cross-disciplinary physics: materials science; rheology
Deposition
Electroless deposition
Electromagnetic interference
Electromagnetic interference shielding effectiveness
Exact sciences and technology
Materials science
Metallic coatings
Metals. Metallurgy
Nickel base alloys
Oxidation
Oxidation behavior
Passivation
Physics
Polyetheretherketones
Production techniques
Surface treatment
Surface treatments
X-rays
Title Effects of passivation on the properties of Ni-P alloy coating deposited on CFs reinforced PEEK
URI https://dx.doi.org/10.1016/j.surfcoat.2013.05.031
https://www.proquest.com/docview/1642265736
Volume 232
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