Tribological evaluation of plasma nitride H13 steel
PDF (English)

Cómo citar

Solis Romero, J., Medina Flores, A., Roblero Aguilar, O., & Oseguera Peña, J. (2013). Tribological evaluation of plasma nitride H13 steel. Superficies Y Vacío, 26(4), 131-138. Recuperado a partir de https://superficiesyvacio.smctsm.org.mx/index.php/SyV/article/view/154

Resumen

The influence of nitriding time and applied load in the friction-wear behaviour of an H13 steel has been studied. Weakly ionised plasma unit and a postdischarge plasma reactor were used for nitriding the H13 die steel with variations of nitriding time from 5h to 9h (at 500 ºC). Optical microscopy and microhardness deep profiles of the nitrided layer were obtained for each nitriding time. Standard pin-on-disc wear test were conducted at ambient temperature (18-23 ºC) and dry sliding. It was observed that the higher the nitriding time, the lower the friction coefficient variations and wear rate varied as a function of the applied load. Plastic deformation and abrasion wear resulted to be the main wear mechanism for short sliding distances, while for long sliding distances plastic deformation dominated the wear mechanism and to some extent oxidative wear. The compound layer (white layer) was central for wear and load capacity.
PDF (English)

Citas

. Mehmet Baki Karamış, Kemal Yıldızlı, Gamze Çarkıt Aydın. Tribology International, 51, 18 (2012).

. Shi Li and Rafael R. Manory. Journal of Materials Science, 34,1045 (1999).

. O. Salas, J. Oseguera, N. García and U. Figueroa. ASM International, 10, 649 (2001).

. M. Terčelj, A. Smolej, P. Fajfar and R. Turk. Tribology International, 40, 374 (2007).

. P. Psyllaki, G.Kefalonikas, G. Pantazopoulos, et al.. Microstructure and tribological behaviour of liquid nitrocarburised tool steels. Surface & Coatings Technology, 162, 67 (2002).

. J. Oseguera, O. Salas, U. Figueroa and M. Palacios. Surface & Coatings Technology, 94, 587 (1997).

. Standard Test Method for Wear Testing with a Pin-on-Disk Apparatus (ASTM G99 95a 2000).

. Kenneth Holmberg and Allan Matthews. Elsevier Science B.V. ISBN: 0 444 88870 5 (Amsterdam, The Netherlands 1994).

. G. Castro, A. Fernández-Vicente and J. Cid. Wear, 263, 1375 (2007).

. Nam P. Suh and H.C. Sin. The genesis of friction. Wear, 69, 91 (1980).

. Horts Czichos, Susanne Becker and Jurgen Lexow. Multilaboratory Wear, 114, 109 (1987).

. M. B. Karamis. Wear, 150, 331 (1991).

. Yucel Birol, Engineering Failure Analysis, 26, 203 (2012).

. M. Terčelj, A. Smoleja, P. Fajfar and R. Turk. Tribology International, 40, 374 (2007).

. S.C. Lim and M.F. Ashby. Acta Metallurgica, 35, 1 (1987).