Open AccessFabric cutting application of FeAl-based alloys
Author(s) -
V K Sikka,
Criag Blue,
S P Sklad,
S.C. Deevi,
Hui-Ru Shih
Publication year - 1998
Language(s) - English
Resource type - Reports
DOI - 10.2172/290928
Subject(s) - feal , intermetallic , materials science , alloy , metallurgy , hardening (computing) , work hardening , composite material , microstructure , layer (electronics)
Four intermetallic-based alloys were evaluated for cutting blade applications. These alloys included Fe{sub 3}Al-based (FAS-II and FA-129), FeAl-based (PM-60), and Ni{sub 3}Al-based (IC-50). These alloys were of interest because of their much higher work-hardening rates than the conventionally used carbon and stainless steels. The FeAl-based PM-60 alloy was of further interest because of its hardening possibility through retention of vacancies. The vacancy retention treatment is much simpler than the heat treatments used for hardening of steel blades. Blades of four intermetallic alloys and commercially used M2 tool steel blades were evaluated under identical conditions to cut two-ply heavy paper. Comparative results under identical conditions revealed that the FeAl-based alloy PM-60 outperformed the other intermetallic alloys and was equal to or somewhat better than the commercially used M2 tool steel