XC38 steel |
Liquid boriding |
207.8 (Fe2B) |
1212 Mebarek B, Benguelloula A, Zanoun A. Effect of Boride Incubation Time During the Formation of Fe2B Phase. Materials Research. 2018;21(1):e20170647.DOI: http://dx.doi.org/10.1590/1980-5373-mr-2017-0647 https://doi.org/http://dx.doi.org/10.159...
|
IF steel |
Electrochemical boriding |
80.70-100.16 (FeB + Fe2B) depending on the current density |
2121 Sesen FE, ÖzgenÖS, Sesen MK. A Study on Boronizing Kinetics of an Interstitial-Free Steel. Materials Performance and Characterization. 2017;6(4):492-509.
|
AISI D2 steel |
Salt-bath |
170.0 (FeB + Fe2B) |
2222 Sen S, Sen U,Bindal C. An approach to kinetic study of borided steels. Surface and Coatings Technology. 2005;191(2-3):274-285.
|
Q235 steel |
Plasma electrolytic boriding |
186.17(FeB + Fe2B and Ni borides as precipitates) |
2323 Jiang YF, BaoYF, Wang M.Kinetic Analysis of Additive on Plasma Electrolytic Boriding. Coatings. 2017;7(5):61.
|
AISI 316 |
Plasma paste boriding |
250.8 (FeB + Fe2B) |
2424 Chegroune R, Keddam M, Nait Abdellah Z, Ulker S, Taktak S, Gunes I. Characterization and kineticsof plasma-paste-borided AISI 316 steel. Materials and Technology. 2016;50(2):263-268.
|
AISI 1018 Steel |
Paste |
159.3 (Fe2B) |
2525 Campos-Silva I, Ortiz-Dominguez M. Modelling the growth of Fe2B layers obtained by the paste boriding process in AISI 1018 steel irons. International Journal of Microstructure and Materials Properties. 2010;5(1):26-38.
|
Armco Iron |
Powder |
157.5 (Fe2B) |
2626 Elias-Espinosa M, Ortiz-Domínguez M, Keddam M, Flores-Rentería MA, Damián-Mejía O, Zuno-Silva J, et al. Growth Kinetics of the Fe2B Layers and Adhesion on Armco Iron Substrate. Journal of Materials Engineering and Performance. 2014;23(8):2943-2952.
|
AISI 9840 steel |
Powder |
193.08 (Fe2B) |
2727 Ortiz-Domínguez M, Gómez-Vargas OA, Keddam M, Arenas-Flores A, García-Serrano J. Kinetics of boron diffusion and characterization of Fe2B layers on AISI 9840 Steel. Protection of Metals and Physical Chemistry of Surfaces. 2017;53(3):534-547.
|
EN-JL-250 Gray cast iron |
Powder |
134.21 (FeB + Fe2B) |
2828 Azouani O, Keddam M, Allaoui O, Sehisseh A. Kinetics of the Formation of Boride Layers on EN-GJL-250 Gray Cast Iron. Materials Performance and Characterization. 2017;6(4):501-522.
|
AISI P20 steel |
Powder |
200 (Fe2B) |
33 Keddam M, Elias-Espinosa M, Ortiz-Domínguez M, Simón-Marmolejo I, Zuno-Silva J. Pack-boriding of AISI P20 steel: Estimation of boron diffusion coefficients in the Fe2B layers and tribological behaviour. International Journal of Surface Science and Engineering.2017;11(6):563-585.
|
AISI S1 steel |
Powder |
199.16 (Fe2B) by the integral method 199.1 (Fe2B) by the masse balance equation |
This work |