Anticorrosion Properties and Morphology of Phosphate Coating Formed on Nitrided Surface of 42CrMo4 Steel

• Autorzy: Kapuścińska A. , Kwiatkowski L. , Wach P. , Mazurek A. , Diduszko R.

Identyfikatory

DOI

10.24425/amm.2020.131749

• Języki publikacji: EN

Abstrakty

EN

The subject of the study concerns the enhancement of corrosion and wear resistance of nitrided 42CrMo4 steel by the formation of zinc phosphate top layer. The present work is aimed at the assessment of the effect of increasing thickness of nitrided layer from approximately 2 μm to 16 μm on the morphology and properties of zinc phosphate coating. XRD analysis showed that along with the increase in the thickness of the nitrides layer, a change in the phase composition was observed. SEM/EDS examination revealed that top layer consists of crystalline zinc phosphate coating. The shape and size of crystals does not significantly depend on a thickness of nitrides layer but corrosion resistance determined by potentiodynamic method in 0.5M NaCl increased with an increase of thickness of a “white layer”. Similarily the wear resistance determined by the 3-cone-roll test was also the highest for 16 μm nitride layer.

Słowa kluczowe

EN

corrosion resistance; phosphating; gas nitriding; γ' nitrides; ε nitrides

• Wydawca: Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences
• Czasopismo: Archives of Metallurgy and Materials
• Rocznik: 2020
• Tom: Vol. 65, iss. 1
• Strony: 471--477
• Opis fizyczny: Bibliogr., 15 poz., fot., rys., tab.

Twórcy

autor

Kapuścińska A.

• Institute of Precision Mechanics, 3 Duchnicka Str., 01-796 Warszawa, Poland

autor

Kwiatkowski L.

• Institute of Precision Mechanics, 3 Duchnicka Str., 01-796 Warszawa, Poland

autor

Wach P.

• Institute of Precision Mechanics, 3 Duchnicka Str., 01-796 Warszawa, Poland

autor

Mazurek A.

• Institute of Precision Mechanics, 3 Duchnicka Str., 01-796 Warszawa, Poland

autor

Diduszko R.

• Tele and Radio Research Institute, 11 Ratuszowa Str., 03-450 Warszawa, Poland

Bibliografia

• [1] J. Michalski, P. Wach, J. Tacikowski, M. Betiuk, K. Burdyński, S. Kowalski, A. Nakonieczny, Materials and Manufacturing Processes 24, 855-858 (2009) .
• [2] J. Senatorski, J. Tacikowski, W. Liliental, Tribology Transactions 41, 199-208 (1998).
• [3] G. Schuhler, A. Jourani, S. Bouvier, M. Perrochat, Tribology International 126, 376-385 (2018).
• [4] J. Michalski, J. Tacikowski, P. Wach, E. Łunarska, H. Baum, Metal Science and Heat Treatment 47, 516-519 (2005).
• [5] H. Weil, L. Barrallier, S. Jegou, N. Caldeira-Meulnotte, G. Beck, International Journal of Fatigue 110, 238-245 (2018).
• [6] J. Michalski, K. Burdynski, P. Wach, Z. Łataś, Archives of Metal-lurgy and Materials 60, 747-754 (2015).
• [7] A. Selte, B. Ozkal, K. Arslan, S. Ulker, A. Hatman, Metal Science and Heat Treatment 59, 529-734 (2018).
• [8] D. Tobola, W. Brostow, K. Czechowski, P. Rusek, Wear 382, 29-39 (2017).
• [9] J. Ratajski, J. Tacikowski, Surface Engineering 19, 285-291 (2003).
• [10] J. Ratajski, R. Olik, T. Suszko, J. Dobrodziej, J. Michalski, Sensors 10, 218-240 (2010).
• [11] J. Michalski, J. Iwanow, J. Tacikowski, T. N. Tarfa, J. Tymowski, I. Sułkowski, P. Wach, Heat Treatment of Metals 2, 31-35 (2004).
• [12] J. Flis, J. Mańkowski, T. Zakroczymski, T. Bell, Corrosion Science 43, 1711-1725 (2001).
• [13] A. Brojanowska, K. Kulikowski, T. Wierzchoń, Ochrona przedkorozją 5, 204 (2011).
• [14] J. Mańkowski, A. Zych, Ochrona przed Korozją 11s/A, 52-56 (2005).
• [15] M. Jurčcik-Rajman, S. Vepřek, Corrosion Science 189/190, 221-225 (1987).

Uwagi

PL

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).