TY - JOUR
T1 - Powder consolidation of Al-10wt% Fe alloy by High-Pressure Torsion
AU - Cubero-Sesin, Jorge M.
AU - Horita, Zenji
PY - 2012/12/15
Y1 - 2012/12/15
N2 - Mixtures of high-purity elemental powders of Al with an Fe content of 10. wt% were consolidated at room temperature by means of High-Pressure Torsion (HPT) and subsequently deformed to high levels of strain. Relative density of the consolidated disks was >99% even at low strains. The microstructure observation by transmission electron microscopy revealed that the alloy consisted of an ultrafine grained Al matrix with an average grain size of 145. nm. Supersaturation of Fe was estimated in the matrix to a maximum of ~1. wt% Fe by X-ray diffraction. The dispersion of secondary Fe-rich particles was quantified by scanning electron microscopy and image processing techniques. Hardness and tensile strength were improved significantly with straining by HPT, in direct correlation with grain refinement and potentiated by dissolution of Fe particles in the matrix. Excellent compromise of strength and ductility was achieved at intermediate levels of imposed strain.
AB - Mixtures of high-purity elemental powders of Al with an Fe content of 10. wt% were consolidated at room temperature by means of High-Pressure Torsion (HPT) and subsequently deformed to high levels of strain. Relative density of the consolidated disks was >99% even at low strains. The microstructure observation by transmission electron microscopy revealed that the alloy consisted of an ultrafine grained Al matrix with an average grain size of 145. nm. Supersaturation of Fe was estimated in the matrix to a maximum of ~1. wt% Fe by X-ray diffraction. The dispersion of secondary Fe-rich particles was quantified by scanning electron microscopy and image processing techniques. Hardness and tensile strength were improved significantly with straining by HPT, in direct correlation with grain refinement and potentiated by dissolution of Fe particles in the matrix. Excellent compromise of strength and ductility was achieved at intermediate levels of imposed strain.
KW - Aluminum-iron alloys
KW - High strength
KW - High-pressure torsion
KW - Microstructure evolution
KW - Powder consolidation
KW - Ultrafine grains
UR - http://www.scopus.com/inward/record.url?scp=84866278192&partnerID=8YFLogxK
U2 - 10.1016/j.msea.2012.08.029
DO - 10.1016/j.msea.2012.08.029
M3 - Artículo
AN - SCOPUS:84866278192
SN - 0921-5093
VL - 558
SP - 462
EP - 471
JO - Materials Science and Engineering: A
JF - Materials Science and Engineering: A
ER -