Details

Title

Characterization of the Surface Layer of Mg Enriched with Al and Si by Thermochemical Treatment

Journal title

Archives of Foundry Engineering

Yearbook

2017

Numer

No 4

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Date

2017

Identifier

ISSN 2299-2944

References

Klimek (2007), Properties of steel after various thermo - chemical treatments of Foundry, Archives Engineering, 15, 71. ; Mola (2014), The properties of Zn - enriched surface layer on of Foundry, Archives Engineering, 11, 45. ; Landolt (1998), Phase Equilibria Crystallographic and Thermodynamic Data of Binary Alloys New Series IV, null, 18. ; Shigematsu (2000), Surface treatment of magnesium alloy by aluminum diffusion coating, Journal of Materials Science Letters, 19, 473. ; Zhu (2006), Improved corrosion resistance of magnesium alloy by an aluminum - alloyed coating Surface and Coating Technology, null, 200. ; Yang (2009), Improving the wear resistance of magnesium alloys by laser cladding with powders, Materials Letters, 25, 19. ; He (2013), an Kinetics and mechanism of multilayer Mg - Al intermetallic compound coating formation of magnesium alloy by NaCl molten salt bath treatment of and, Journal Alloys Compounds, 17, 551. ; Chen (2012), Thermally diffused antimony and zinc coatings on magnesium alloys Surface, Engineering, 13, 382. ; Zhong (2010), Formation of an aluminumalloyed coating on magnesium alloy in molten salts at lower temperature Surface and Coating Technology, null, 16, 205. ; Czerwinski (2012), treatment of metals, InTech, 1, doi.org/10.5772/51566 ; Mola (2014), Formation of Alenriched surface layers through reaction at the Mg substrate powder interface Surface and, Interface Analysis, 577. ; Mola (2016), The microstructure of alloyed layers formed on Mg by the powder - pack method METAL th Anniversary International Conference on Metallurgy and Materials, null, 12, 1492. ; Raghavan (2007), Aluminum Magnesium Silicon of Phase, Journal Equilibria, 20, 189. ; Volovitch (2008), Microstructure and corrosion resistance of magnesium alloy with laser surface cladding by powder Surface and Coating Technology, null, 23, 202. ; Liu (2009), Effect of temperature on microstructures and properties of aluminized coating on pure magnesium of and, Journal Alloys Compounds, 478. ; He (2009), iu u ang u Improvement of the properties of magnesium alloy by treatment with molten NaCl salt to form an Mg - Al intermetallic surface layer of and, Journal Coatings Technology Research, 15, 407. ; Ma (2005), The effect of solid diffusion surface alloying on properties of magnesium alloy Surface and Coating Technology, null, 190. ; Gao (2006), Broad - beam laser cladding of Si alloy coating on HP magnesium alloy Surface and Coating Technology, null, 22, 201. ; Mola (null), The properties of Mg protected by and Zn - enriched layers containing intermetallic phases of, Journal Materials Research, 30, 2015. ; Qian (2008), Microstructure and corrosion characteristic of laser - alloyed magnesium alloy with powder and of, Science Technology Advanced Materials, 24, 1. ; Carcel (2011), and wear resistance improvement of magnesium alloys by laser cladding with Physics, Corrosion, 26, 353. ; Landolt (2005), Light Metal Ternary Systems Phase Diagrams Crystallographic and Thermodynamic Data Series Volume, null, 19. ; Wang (2014), Improved corrosion resistance of magnesium alloy by zinc - yttrium coating of and Compounds, Journal Alloys, 14, 582. ; Galun (1998), Weisheit Improving the surface properties of magnesium by laser alloying, Corrosion, 21, 53.

DOI

10.1515/afe-2017-0157

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