Phase Evolution-Dependent Nanomechanical Properties of Al86Ni8Y6 and Al86Ni6Y4.5Co2La1.5 Spark Plasma-Sintered Bulk Amorphous Composites

In this work, the effects of milling and spark plasma sintering on crystalline phase evolution of Al 86 Ni 8 Y 6 and Al 86 Ni 6 Y 4.5 Co 2 La 1.5 amorphous ribbons and subsequently on nanoindentation behavior have been studied. The as-cast ribbons of both compositions exhibited three-stage crystalli...

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Veröffentlicht in:Metallurgical and materials transactions. A, Physical metallurgy and materials science Physical metallurgy and materials science, 2020-10, Vol.51 (10), p.5110-5119
Hauptverfasser: Sahu, Ashutosh, Maurya, Ram Sajeevan, Dinda, Soumitra, Laha, Tapas
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Sprache:eng
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Zusammenfassung:In this work, the effects of milling and spark plasma sintering on crystalline phase evolution of Al 86 Ni 8 Y 6 and Al 86 Ni 6 Y 4.5 Co 2 La 1.5 amorphous ribbons and subsequently on nanoindentation behavior have been studied. The as-cast ribbons of both compositions exhibited three-stage crystallization behavior. The first stage of crystallization disappeared completely and onset of second stage shifted to lower values in the sintered samples compared to those in the corresponding as-cast ribbons, ascribed to evolution of various crystalline phases. The nanohardness of Al 86 Ni 8 Y 6 and Al 86 Ni 6 Y 4.5 Co 2 La 1.5 ribbons and the corresponding sintered samples were 3.26 ± 0.59, 3.81 ± 0.58, 6.06 ± 0.7, and 6.14 ± 0.82 GPa, respectively. The wear volume loss of Al 86 Ni 8 Y 6 and Al 86 Ni 6 Y 4.5 Co 2 La 1.5 as-cast ribbons at 3 mN load were 1.73 and 1.79 µ m 3 , which decreased to 0.78 and 0.5 µ m 3 , respectively, in the corresponding consolidated samples. The increase in nanohardness and decrease in wear volume loss in bulk samples can be ascribed to the formation of hard intermetallic phases in amorphous matrix. Average coefficient of friction for Al 86 Ni 8 Y 6 and Al 86 Ni 6 Y 4.5 Co 2 La 1.5 bulk samples at 3 mN were 0.36 and 0.32, which increased to 0.43 and 0.45, respectively, at 200 mN, attributed to the increase in the lateral force.
ISSN:1073-5623
1543-1940
DOI:10.1007/s11661-020-05916-9