Supersaturated Au80Fe20 and Au70Fe30 solid solutions have been obtained by rapid solidification. The lattice constant a0 of the as-quenched FCC phase was of 4.025 and 3.989 Å for Au80Fe20 and Au70Fe30, respectively. Thermal treatments have been performed in the temperature range between 320°C and 550°C. A precipitation reaction has been observed in Au80Fe20 only after prolonged annealing at low temperature (320°C/168 h). In Au70Fe30 an increase in the lattice constant has been observed after thermal treatments, giving values ranging from 3.998 to 4.044 Å. Precipitation occurs at grain boundaries and into grains. Low-temperature annealings give lamellar precipitates, which grow and transform into globules at higher temperatures. A Williamson-Hall plot for the FCC phase shows a significant scatter due to occurrence of planar defects. A detailed analysis of microstructure have been obtained by Rietveld analysis of peak broadening. Precipitation reaction leaves a Fe-depleted matrix, which shows a cristallite size of about 200 Å and an r.m.s. microstrain of 6 × 10-3. Compound fault probability has been estimated from asymmetric peak profile. © 2003 Elsevier Science B.V. All rights reserved.

X-ray analysis of microstructure in Au-Fe melt spun alloys

BARICCO, Marcello
2003-01-01

Abstract

Supersaturated Au80Fe20 and Au70Fe30 solid solutions have been obtained by rapid solidification. The lattice constant a0 of the as-quenched FCC phase was of 4.025 and 3.989 Å for Au80Fe20 and Au70Fe30, respectively. Thermal treatments have been performed in the temperature range between 320°C and 550°C. A precipitation reaction has been observed in Au80Fe20 only after prolonged annealing at low temperature (320°C/168 h). In Au70Fe30 an increase in the lattice constant has been observed after thermal treatments, giving values ranging from 3.998 to 4.044 Å. Precipitation occurs at grain boundaries and into grains. Low-temperature annealings give lamellar precipitates, which grow and transform into globules at higher temperatures. A Williamson-Hall plot for the FCC phase shows a significant scatter due to occurrence of planar defects. A detailed analysis of microstructure have been obtained by Rietveld analysis of peak broadening. Precipitation reaction leaves a Fe-depleted matrix, which shows a cristallite size of about 200 Å and an r.m.s. microstrain of 6 × 10-3. Compound fault probability has been estimated from asymmetric peak profile. © 2003 Elsevier Science B.V. All rights reserved.
2003
262
136
141
http://www.scopus.com/inward/record.url?eid=2-s2.0-0038327789&partnerID=40&md5=57f4383c1988a4e75941b64659a779ee
Annealing, Giant magnetoresistance, Gold alloys, Grain boundaries, Heat treatment, Lattice constants, Microstructure, Precipitation (chemical), Solidification, Supersaturation, X ray diffraction analysis; Magnetic interaction; Solid solutions
E.Bosco; S.Enzo; M.Baricco
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/112601
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