Effect of Mn addition on Fe-rich intermetallics morphology and dry sliding wear investigation of hypereutectic Al-17.5%Si alloys | Zendy

Cyrus Bidmeshki | Zendy; V. Abouei | Zendy; H. Saghafian | Zendy; S.G. Shabestari | Zendy; Mohammad Talafi Noghani | Zendy

Open Access

Effect of Mn addition on Fe-rich intermetallics morphology and dry sliding wear investigation of hypereutectic Al-17.5%Si alloys

Author(s) -

Cyrus Bidmeshki,

V. Abouei,

H. Saghafian,

S.G. Shabestari,

Mohammad Talafi Noghani

Publication year - 2016

Publication title -

journal of materials research and technology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.832

H-Index - 44

eISSN - 2214-0697

pISSN - 2238-7854

DOI - 10.1016/j.jmrt.2015.11.008

Subject(s) - intermetallic , materials science , alloy , metallurgy , microstructure , manganese , morphology (biology) , genetics , biology

The effect of Manganese addition on the iron-rich intermetallics and wear behavior of Al-17.5%Si hypereutectic alloys has been studied. Dry sliding wear tests have been conducted using a pin-on-disk machine under different normal loads of 18, 51, 74 and 100N and at a constant sliding speed of 0.3m/s. The addition of 1.2wt.% Fe to the base alloy increased the wear rate due to the formation of needle beta intermetallics. Introducing 0.6wt.% Mn to the iron-rich alloy changed the beta intermetallics into the modified alpha phases, and therefore reduced the detrimental effect of iron. Mn addition up to 0.9wt.% to the 1.8Fe alloy did not impede formation of needle-like intermetallic compounds and had no positive effect on the modification of microstructure

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