Accès libre

Characterization of bilayer (FeB/Fe2B) on AISI H13 work tool steel

B. Boumaali
B. Boumaali
, 
Abdellah Z. Nait
Abdellah Z. Nait
 et 
M. Keddam
M. Keddam
   | 05 oct. 2021
KOM – Corrosion and Material Protection Journal's Cover Image
À propos de cet article
Article précédent
Article suivant
Citez
Publié en ligne: 05 oct. 2021
Pages: 40 - 48
DOI: https://doi.org/10.2478/kom-2021-0005
© 2021 B. Boumaali et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

1. Kulka M. Trends in thermochemical techniques of boriding, in: Current Trends in Boriding, Engineering Materials. Springer: Cham, Switzerland, 2019. Search in Google Scholar

2. Sen U., Sen S., The fracture toughness of borides formed on boronized cold work tool steels, Materials Characterization 2003, 50, 261-267.10.1016/S1044-5803(03)00104-9 Search in Google Scholar

3. Dokumaci E., Özkan I., Önay B., Effect of boronizing on the cyclic oxidation of stainless steel, Surface and Coatings Technology 2013, 232, 22-25.10.1016/j.surfcoat.2013.04.047 Search in Google Scholar

4. Keddam M., Chegroune R., Kulka M., Makuch N., Panfil D., Siwak P., Taktak S., Characterization, tribological and mechanical properties of plasma paste borided AISI 316 steel, Transactions of the Indian Institute of Metals 2018, 71, 79-90.10.1007/s12666-017-1142-6 Search in Google Scholar

5. Taktak S., Some mechanical properties of borided AISI H13 and 304 steels, Materials and Design 2007, 28, 1836–1843.10.1016/j.matdes.2006.04.017 Search in Google Scholar

6. Kara R., Çolak F., Kayali Y., Investigation of Wear and Adhesion Behaviors of Borided Steels, Transactions of the Indian Institute of Metals, 2015, 69, 1169–1177.10.1007/s12666-015-0698-2 Search in Google Scholar

7. Hudáková M., Jurči P., Microstructure and Microhardness of Powder Boronized Vanadis 6 Steel. Defect and Diffusion Forum 2019, 395, 73–84.10.4028/www.scientific.net/DDF.395.73 Search in Google Scholar

8. Günen A., Karahan I.H., Karakaş M.S., Kurt B., Kanca Y., Çay V.V., Yıldız M., Properties and Corrosion Resistance of AISI H13 Hot-Work Tool Steel with Borided B4C Powders, Metals and Materials International 2020,26, 1329–134010.1007/s12540-019-00421-0 Search in Google Scholar

9. Karakaş M.S., Günen A., Kanca E., Yilmaz E., Boride layer growth kinetics of AISI H13 steel borided with nano-sized powders. Archives of Metallurgy and Materials, Archives of Metallurgy and Materials 2018, 63, 159-165. Search in Google Scholar

10. López-Perrusquia N., Campos-Silva I., Martínez-Trinidad J., Avilés A., Alvárez-Castañeda E., Juárez-Torres S., Evaluation of Brittle Layers Obtained by Boriding on AISI H13 Steels, Advanced Materials Research 2009, 65, 47–52.10.4028/www.scientific.net/AMR.65.47 Search in Google Scholar

11. Campos-Silva I., Ortíz-Domínguez M., López-Perrusquia N., Escobar Galindo R., Gómez-Vargas O.A., Hernández-Sánchez E., Determination of Boron Diffusion Coefficients in Borided Tool Steels. Defect and Diffusion Forum 2009, 283-286, 681–686.10.4028/www.scientific.net/DDF.283-286.681 Search in Google Scholar

12. Vega-Morón R.C., Rodríguez-Castro G.A., Jiménez-Tinoco L.F., Meneses-Amador A., Méndez-Méndez J.V., Escobar-Hernández J., Reséndiz-Calderón C.D., Nava-Sánchez J.L., Multipass Scratch Behavior of Borided and Nitrided H13 Steel, Journal of Materials Engineering and Performance 2018, 27, 3886–3899.10.1007/s11665-018-3410-y Search in Google Scholar

13. Boonplook Y., Juijerm P., Prediction of Boride Thickness on Tool Steels AISI D2 and AISI H13 Using Boriding Kinetics, Advanced Materials Research 2014, 931-932, 296–300.10.4028/www.scientific.net/AMR.931-932.296 Search in Google Scholar

14. López-Perrusquia N., Doñu-Ruíz M.A., Vasquez F., Trujillo-Alfaro O., Vargas-Oliva Y.E., Study of Adhesion in Steels Surface Hardened, Advanced Materials Research 2012, 535-537, 513–516.10.4028/www.scientific.net/AMR.535-537.513 Search in Google Scholar

15. Nait Abdellah Z., Boumaali B., Keddam M., Experimental evaluation and modelling the boronizing kinetics of AISI H13 hot work tool steel, Materials Testing 2021 (in press).10.1515/mt-2021-0056 Search in Google Scholar

16. Yu L.G., Khor K.A., Sundararajan G., Boriding of mild steel using the spark plasma sintering (SPS) technique, Surface and Coatings Technology, 2002, 157, 226-230.10.1016/S0257-8972(02)00134-2 Search in Google Scholar

17. Oliver W.C., Pharr G.M., An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments, Journal of Materials Research, 1992, 7, 1564–1583.10.1557/JMR.1992.1564 Search in Google Scholar

18. Oliver W.C., Measurement of hardness and elastic modulus by instrumented indentation: Advances in understanding and refinements to methodology, Journal of Materials Research 2004, 19, 3-20.10.1557/jmr.2004.19.1.3 Search in Google Scholar

19. Günen A., Kalkandelen M., Gök M.S., Kanca E., Kurt B., Karakaş M.S., Karahan I.H., Çetin M., Characteristics and high temperature wear behavior of chrome vanadium carbide composite coatings produced by thermo-reactive diffusion, Surface and Coatings Technology 2020, 420, 126402.10.1016/j.surfcoat.2020.126402 Search in Google Scholar

20. Demir, M., Kanca E., Karahan I.H., Characterization of electrodeposited Ni–Cr/hBN composite coatings, Journal of Alloys and Compounds 2020, 844, 155511.10.1016/j.jallcom.2020.155511 Search in Google Scholar

21. Lakhtin Y.M., Pchelkina M.A., Boronizing of high-alloy steels, Met Sci Heat Treat, 1961, 3, 111-114.10.1007/BF00810548 Search in Google Scholar

22. Campos-Silva I., Ortiz-Domínguez M., Tapia-Quintero C., Rodríguez-Castro G., Jiménez-Reyes M.Y., Chávez-Gutiérrez E., Kinetics and Boron Diffusion in the FeB/Fe2B Layers Formed at the Surface of Borided High-Alloy Steel, J of Mater Eng and Perform 2012, 21, 1714–1723.10.1007/s11665-011-0088-9 Search in Google Scholar

23. Ayvaz S.I., Aydin I., Effect of the Microwave Heating on Diffusion Kinetics and Mechanical Properties of Borides in AISI 316L, Trans Indian Inst Met 2020, 73, 2635–2644.10.1007/s12666-020-02072-x Search in Google Scholar

24. Mejía-Caballero I., Escobar-Martínez C., Palomar-Pardavé M., Le Manh L., Romero-Romo M., Rodríguez-Clemente E., Lartundo-Rojas L., Campos-Silva I., On the Corrosion Mechanism of Borided X12CrNiMoV12-3 Steel Immersed in a Neutral Aqueous Solution Containing Chloride and Sulfate Ions, Metallurgical and Materials Transactions A. 2020, 51, 4868–4879. Search in Google Scholar

25. Taktak S., A study on the diffusion kinetics of borides on boronized Cr-based steels, Journal of Materials Science 2006, 41, 7590–7596.10.1007/s10853-006-0847-4 Search in Google Scholar

26. Rodríguez-Castro G., Campos-Silva I., Chávez-Gutiérrez E., Martínez-Trinidad J., Hernández-Sánchez E., Torres-Hernández A., Mechanical properties of FeB and Fe2B layers estimated by Berkovich nanoindentation on tool borided steel, Surface and Coatings Technology 2013, 215, 291–299.10.1016/j.surfcoat.2012.05.145 Search in Google Scholar

27. Culha O., Toparli M., Sahin S., Aksoy T., Characterization and determination of FexB layers’ mechanical properties, J. Mater. Process. Technol. 2015, 206, 231-240. Search in Google Scholar

28. Rodríguez-Castro G., Campos-Silva I., Martínez-Trinidad M., Figueroa-López. U., Rodríguez-Pulido A., Hernández-Sánchez E., Hernández-Sánchez J., Mechanical behaviour of AISI 1045 steels subjected to powder-pack boriding, Kovove Mater 2012, 50, 357-364.10.4149/km_2012_5_357 Search in Google Scholar

29. Kulka M., Makuch, N., Piasecki, A., Nanomechanical characterization and fracture toughness of FeB and Fe2B iron borides produced by gas boriding of Armco iron, Surface and Coatings Technology 2017, 325, 515-532.10.1016/j.surfcoat.2017.07.020 Search in Google Scholar

30. Bouarour B., Keddam M., Allaoui O., Azouani O., Boriding kinetics of C35 steel: estimation of boron activation energy and the mass gain, Metallurgical Research and Technology 2014, 111, 67-73.10.1051/metal/2014015 Search in Google Scholar

31. Sen S., Sen U., Bindal C., The Growth Kinetics of Borides Formed on Boronized AISI 4140 Steel, Vacuum 2005, 77, 195–202.10.1016/j.vacuum.2004.09.005 Search in Google Scholar

32. Azouani O., Keddam M., Allaoui O., Sehisseh A., Kinetics of formation of boride layers on EN-GJL-250 gray cast iron, Materials Performance and Characterization 2017, 6, 510-522.10.1520/MPC20160077 Search in Google Scholar

33. Azouani O., Keddam M., Allaoui O., Sehisseh A., Kinetic Analysis of pack-borided gray cast iron, Materials Performance and Characterization 2021, 10, 226-236.10.1520/MPC20200176 Search in Google Scholar

34. Genel K., Boriding kinetics of H13 steel, Vacuum 2006, 80, 451–457.10.1016/j.vacuum.2005.07.013 Search in Google Scholar

35. Keddam M., Ortiz-Dominguez M., Elias-Espinosa M., Damian-Mejia O., Arenas-Flores A., Gomez-Vargas O.A., Abreu-Quijano M., Aldana-Gonzalez J.I, Zuno-Silva J, Growth Kinetics of the Fe2B Coating on AISI H13 Steel, Trans. Indian Inst. Met. 2015, 68, 433-442. Search in Google Scholar

eISSN:
1804-1213
Langue:
Anglais
Périodicité:
4 fois par an
Sujets de la revue:
Industrial Chemistry, Chemical Engineering, Materials Sciences, Ceramics and Glass
RSS Feed de la revue