Publication result detail
Characterization of Electroless Ni–P Coating Prepared on a Wrought ZE10 Magnesium Alloy
BUCHTÍK, M.; KOSÁR, P.; WASSERBAUER, J.; TKACZ, J.; DOLEŽAL, P.
Original Title
Characterization of Electroless Ni–P Coating Prepared on a Wrought ZE10 Magnesium Alloy
English Title
Characterization of Electroless Ni–P Coating Prepared on a Wrought ZE10 Magnesium Alloy
Type
WoS Article
Original Abstract
Electroless low-phosphorus Ni–P coating was deposited on a wrought ZE10 magnesium alloy including an advanced pre-treatment of the material surface before deposition. Uniform Ni–P coating with an average thickness of 10 µm was formed by 95.6 wt % Ni and 4.4 wt % P. The content of Ni and P was homogeneous in the entire cross-section of the coating. Applying the Ni–P coating to the magnesium substrate, the surface microhardness increased from 60 ± 4 HV 0.025 to 690 ± 30 HV 0.025. Using the scratch test, it was determined that deposited Ni–P coating exhibits a high degree of adhesion to the magnesium substrate. Electrochemical corrosion properties of Ni–P coating were analyzed using the polarization tests in 0.1 M NaCl, while the deposited Ni–P coating showed an improvement of the corrosion resistance when compared to the ZE10 magnesium alloy. Using the scanning electron microscopy analysis, it was determined that the fine morphology of the deposited Ni–P coating did not contain visible microcavities. The absence of macrodefects due to the adequate pre-treatment before coating was reflected on the mechanism of the coated ZE10 degradation in a 0.1 M NaCl solution.
English abstract
Electroless low-phosphorus Ni–P coating was deposited on a wrought ZE10 magnesium alloy including an advanced pre-treatment of the material surface before deposition. Uniform Ni–P coating with an average thickness of 10 µm was formed by 95.6 wt % Ni and 4.4 wt % P. The content of Ni and P was homogeneous in the entire cross-section of the coating. Applying the Ni–P coating to the magnesium substrate, the surface microhardness increased from 60 ± 4 HV 0.025 to 690 ± 30 HV 0.025. Using the scratch test, it was determined that deposited Ni–P coating exhibits a high degree of adhesion to the magnesium substrate. Electrochemical corrosion properties of Ni–P coating were analyzed using the polarization tests in 0.1 M NaCl, while the deposited Ni–P coating showed an improvement of the corrosion resistance when compared to the ZE10 magnesium alloy. Using the scanning electron microscopy analysis, it was determined that the fine morphology of the deposited Ni–P coating did not contain visible microcavities. The absence of macrodefects due to the adequate pre-treatment before coating was reflected on the mechanism of the coated ZE10 degradation in a 0.1 M NaCl solution.
Keywords
electroless deposition; Ni–P coating; magnesium alloy; ZE10; adhesion; microhardness; EDS analysis; polarization test
Key words in English
electroless deposition; Ni–P coating; magnesium alloy; ZE10; adhesion; microhardness; EDS analysis; polarization test
Authors
BUCHTÍK, M.; KOSÁR, P.; WASSERBAUER, J.; TKACZ, J.; DOLEŽAL, P.
RIV year
2019
Released
07.03.2018
Publisher
MDPI
ISBN
2079-6412
Periodical
Coatings, MDPI
Volume
3
Number
8
State
Swiss Confederation
Pages from
1
Pages to
14
Pages count
14
URL
Full text in the Digital Library
BibTex
@article{BUT146606,
author="Martin {Buchtík} and Petr {Kosár} and Jaromír {Wasserbauer} and Jakub {Tkacz} and Pavel {Doležal}",
title="Characterization of Electroless Ni–P Coating Prepared on a Wrought ZE10 Magnesium Alloy",
journal="Coatings, MDPI",
year="2018",
volume="3",
number="8",
pages="1--14",
doi="10.3390/coatings8030096",
issn="2079-6412",
url="http://www.mdpi.com/2079-6412/8/3/96"
}Documents