The effect of Cu rejection in laser forming of AlCoCrCuFeNi/Mg composite coating

AlCoCrCuFeNi/Mg composite coating was formed by means of laser melt injection using a direct blown powder method with the aim of investigating the effect of Cu rejection in laser forming of AlCoCrCuFeNi high-entropy alloy (HEA) particle reinforced composite coating on magnesium substrates. It is fou...

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Published inMaterials & design Vol. 108; pp. 157 - 167
Main Authors Meng, G.H., Lin, X., Xie, H., Yue, T.M., Ding, X., Sun, L., Qi, M.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.10.2016
Subjects
Coating
Composite coatings
Formations
Forming
High-entropy alloy
Laser surface treatment
Lasers
Microstructure
Particulate composites
Rejection
Substrates
Wear
Laser surface treatment
Composite coatings
Microstructure
Wear
High-entropy alloy
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Abstract AlCoCrCuFeNi/Mg composite coating was formed by means of laser melt injection using a direct blown powder method with the aim of investigating the effect of Cu rejection in laser forming of AlCoCrCuFeNi high-entropy alloy (HEA) particle reinforced composite coating on magnesium substrates. It is found that the distribution of rejected Cu was uneven within the formed coating. As a distance from the substrate increased, a higher Cu content was detected in the area between the reinforcing HEA particles. Accordingly, the dendritic and cellular structures of CuMg2 were obtained in the upper region of the composite coating due to a high Cu content. With the Cu concentration decreasing, the microstructure was gradually dominated by columnar Mg when moving towards the substrate. Although microhardness values increased, room temperature dry sliding wear properties of the formed coating were adversely influenced by the Cu rejection due to the formation of the brittle CuMg2 phase. Additionally, the Cu rejection could promote the BCC-structured formation within the HEA particles, and therefore it may cause a change in deformation behavior of the reinforcement due to the increase of hardness and the decrease of plasticity of the reinforcing HEA particles. [Display omitted] •AlCoCrCuFeNi high-entropy alloy reinforced composite coating was formed on Mg substrates using a direct blown powder method.•Cu rejection adversely influences the wear properties of the formed coating due to the formation of the brittle CuMg2 phase.•Cu rejection promotes the BCC-structured phase formation within the reinforcement.•Cu rejection has double effects on the deformation behavior of the reinforcement.
AbstractList AlCoCrCuFeNi/Mg composite coating was formed by means of laser melt injection using a direct blown powder method with the aim of investigating the effect of Cu rejection in laser forming of AlCoCrCuFeNi high-entropy alloy (HEA) particle reinforced composite coating on magnesium substrates. It is found that the distribution of rejected Cu was uneven within the formed coating. As a distance from the substrate increased, a higher Cu content was detected in the area between the reinforcing HEA particles. Accordingly, the dendritic and cellular structures of CuMg2 were obtained in the upper region of the composite coating due to a high Cu content. With the Cu concentration decreasing, the microstructure was gradually dominated by columnar Mg when moving towards the substrate. Although microhardness values increased, room temperature dry sliding wear properties of the formed coating were adversely influenced by the Cu rejection due to the formation of the brittle CuMg2 phase. Additionally, the Cu rejection could promote the BCC-structured formation within the HEA particles, and therefore it may cause a change in deformation behavior of the reinforcement due to the increase of hardness and the decrease of plasticity of the reinforcing HEA particles.
AlCoCrCuFeNi/Mg composite coating was formed by means of laser melt injection using a direct blown powder method with the aim of investigating the effect of Cu rejection in laser forming of AlCoCrCuFeNi high-entropy alloy (HEA) particle reinforced composite coating on magnesium substrates. It is found that the distribution of rejected Cu was uneven within the formed coating. As a distance from the substrate increased, a higher Cu content was detected in the area between the reinforcing HEA particles. Accordingly, the dendritic and cellular structures of CuMg2 were obtained in the upper region of the composite coating due to a high Cu content. With the Cu concentration decreasing, the microstructure was gradually dominated by columnar Mg when moving towards the substrate. Although microhardness values increased, room temperature dry sliding wear properties of the formed coating were adversely influenced by the Cu rejection due to the formation of the brittle CuMg2 phase. Additionally, the Cu rejection could promote the BCC-structured formation within the HEA particles, and therefore it may cause a change in deformation behavior of the reinforcement due to the increase of hardness and the decrease of plasticity of the reinforcing HEA particles. [Display omitted] •AlCoCrCuFeNi high-entropy alloy reinforced composite coating was formed on Mg substrates using a direct blown powder method.•Cu rejection adversely influences the wear properties of the formed coating due to the formation of the brittle CuMg2 phase.•Cu rejection promotes the BCC-structured phase formation within the reinforcement.•Cu rejection has double effects on the deformation behavior of the reinforcement.
Author Yue, T.M.
Meng, G.H.
Lin, X.
Qi, M.
Xie, H.
Ding, X.
Sun, L.
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Wear
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Snippet AlCoCrCuFeNi/Mg composite coating was formed by means of laser melt injection using a direct blown powder method with the aim of investigating the effect of Cu...
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StartPage 157
SubjectTerms Coating
Composite coatings
Formations
Forming
High-entropy alloy
Laser surface treatment
Lasers
Microstructure
Particulate composites
Rejection
Substrates
Wear
Title The effect of Cu rejection in laser forming of AlCoCrCuFeNi/Mg composite coating
URI https://dx.doi.org/10.1016/j.matdes.2016.06.094
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