Synergism between tribological parameters – “micro-abrasive concentration level”, “micro-abrasive particle type”, and “liquid type” of a micro-abrasive slurry composition on the micro-abrasive wear behaviour of Fe-30Al-6Cr (at.%) iron aluminide alloy

Observing the importance of intermetallic materials in mechanical and metallurgical applications, the present work investigates the micro-abrasive wear behaviour in a model–carbide reinforced iron aluminide system. Fe–30Al–6Cr (at.%) iron aluminide alloy with carbon additions “as cast” specimen was...

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Published in:Wear 2023-07, Vol.524-525, p.204867, Article 204867
Main Authors: de Paula, Angel Felipe Magnossão, Borges, Doris Feijó Leão, da Silva, Felipe Carneiro, Rossino, Luciana Sgarbi, Manfrinato, Marcos Dorigão, Verma, Vikas, Luna-Domínguez, Jorge Humberto, Magnabosco, Rodrigo, Schön, Cláudio Geraldo, Cozza, Ronaldo Câmara
Format: Article
Language:English
Subjects:
Grooving abrasion
Intermetallics
Iron aluminide alloy
Micro-abrasive wear
Micro-abrasive wear mode transition
Rolling abrasion
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Summary:Observing the importance of intermetallic materials in mechanical and metallurgical applications, the present work investigates the micro-abrasive wear behaviour in a model–carbide reinforced iron aluminide system. Fe–30Al–6Cr (at.%) iron aluminide alloy with carbon additions “as cast” specimen was tested. Micrographs revealed a continuous network of eutectic chromium carbides at the interdendritic regions of the D03 ordered aluminide matrix. AISI 52100 bearing steel sphere of diameter 25.4 mm (1″) was used for wear tests as counter body. Micro-abrasive slurries were prepared with micro-abrasive particles of black silicon carbide – SiC or alumina – Al2O3, with distilled water or glycerin, in four possible combinations of materials ⇒ “Al2O3 + H2O distilled”, “Al2O3 + glycerin”, “SiC + H2O distilled” and “SiC + glycerin”. Further, keeping the normal force constant and together with different levels of micro-abrasive slurries compositions and sliding distances, a factorial experiment was designed. Result analysis showed that wear volume increased with an increase in micro-abrasive slurry concentration, independently of the type of micro-abrasive particle and liquid. However, the micro-abrasive slurries prepared with SiC and distilled water provided larger wear volumes than the volumes of wear reported under the micro-abrasive slurries formulated with Al2O3 and glycerin. The reason is attributed to the high hardness of SiC particles resulting in high abrasion, whereas the Al2O3 – glycerin slurry lubrication effect restricted high wear. Wear micrographs revealed a change in worn surface morphology from “grooving micro-abrasion” to “rolling micro-abrasion” due to an increase in sliding distance and micro-abrasive slurry concentration. •Synergism between concentration, abrasive material and liquid influenced the Fe-30Al-6Cr (at.%) tribological behaviour.•There were transitions between abrasive wear modes as a function of the abrasive slurry composition and sliding distance.•Actuation map of abrasive wear modes was organised as a function of the abrasive slurry composition and sliding distance.•The abrasive slurry composition influenced the severity with which the Fe–30Al–6Cr (at.%) intermetallic alloy was worn. In total, seventy-two (72) micro-abrasive wear tests by rotative ball were performed. Each experiment was carried out without interruption and the micro-abrasive slurry was continuously stirred and dripped between the test sphere and the specimen, during t
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2023.204867