Proceedings of ABM Annual Congress


ISSN 2594-5327

71th ABM Annual Congress vol. 71, num.71 (2016)


Title

MICRO-ABRASIVE WEAR BEHAVIOUR OF LOW-TEMPERATURE PLASMA CARBURIZED AISI 420 MARTENSITIC STAINLESS STEEL

DOI

10.5151/1516-392X-27640

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Abstract

Experiments were carried out aiming to study the influence of micro-abrasive wear test variables and plasma treatment parameters, on the tribological characteristics of low-temperature plasma carburized AISI 420 steel. The first part of this study was conducted in order to evaluate the influence of abrasive particle size, normal load and counter body rotation speed on carburized sample wear behavior; and the second part was conducted in order to evaluate the treatment temperature and time effect on carburized samples wear behavior. Plasma carburizing treatments were performed at 8 and 12 h, for temperatures ranging from 350 to 500°C; and at constant temperatures of 400°C for times between 12 to 48h, and for 450°C for times of 4 to 16h. Micro-abrasive wear test were performed by mean of a calowear ball-cratering equipment using a polished ball of AISI 52100 steel rotating at 80, 120 and 160 rpm, for sliding distances from 2.6 to 104.2 m. Alumina abrasive particles with sizes of 0.05, 0.3 and 1.0 m were employed. The normal loads applied on this study were 0.1, 0.3 and 0.5 N. Carburized sample was characterized by mean of OM, XRD and hardness measurements. Worn crater characteristics were evaluated by confocal laser microscopy. Results showed that the transient wear regime prevails along the outer layer length (composed by Fe3C and ’C), and the steady-state wear stabilizes in the diffusion layer region (composed by ’C). It was verified that the wear rate and wear coefficient decreases with treatment temperature in the range of 350–450°C and increase for 500°C. It was also verified that the wear rate and wear coefficient decreases with treatment time in the range of 12–36 h (for 400°C cycle) and 4–12 h (for 450°C cycle), and increase for larger treatment times due the chromium carbide precipitation. It was also found that the wear coefficient increases with the increase of abrasive particle size, and decrease with the increase in counter body rotation speed and normal load. Lastly, the analysis of the worn craters indicates the occurrence of grooving and micro-rolling abrasion wear mechanisms.

 

Keywords

Ball-cratering test, Grooving abrasion, Micro-rolling abrasion, Low-temperature plasma carburizing, Martensitic stainless steel

Martensitic stainless steel

How to refer

Scheuer, Cristiano José; Cardoso, Rodrigo Perito; Neves, Júlio César Klein das; Brunatto, Sílvio Francisco. MICRO-ABRASIVE WEAR BEHAVIOUR OF LOW-TEMPERATURE PLASMA CARBURIZED AISI 420 MARTENSITIC STAINLESS STEEL , p. 391-405. In: 71th ABM Annual Congress, Rio de Janeiro, 2016.
ISSN: 2594-5327 , DOI 10.5151/1516-392X-27640