Structural-phase composition of iron-containing high carbon composites with fullerite and graphite obtained by mechanosynthesis

In the present paper, X-ray diffraction, scanning electron microscopy, Mossbauer, Raman and X-ray photoelectron spectroscopy and thermal analysis have been used for the comparative studies of composites fullerite-Fe and graphite-Fe containing 75 at% of carbon and obtained by the mechanosynthesis met...

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Published in:Journal of alloys and compounds 2022-07, Vol.909, p.164749, Article 164749
Main Authors: Larionova, N.S., Nikonova, R.M., Ul’yanov, A.L., Lad’yanov, V.I., Kamaeva, L.V.
Format: Article
Language:English
Subjects:
Carbon
Cementite
Comparative studies
Composite materials
Fullerenes
Graphite
Hyperfine interactions
Iron carbides
Kinetics
Mechanical alloying
Nanostructured materials
Phase composition
Photoelectrons
Stability
Synthesis
Thermal analysis
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cited_by cdi_FETCH-LOGICAL-c337t-f17e474762b027e1293fa59d3d68757a0360b737b70ca6f93a987e79404c1f73
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container_start_page 164749
container_title Journal of alloys and compounds
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creator Larionova, N.S.
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description In the present paper, X-ray diffraction, scanning electron microscopy, Mossbauer, Raman and X-ray photoelectron spectroscopy and thermal analysis have been used for the comparative studies of composites fullerite-Fe and graphite-Fe containing 75 at% of carbon and obtained by the mechanosynthesis method. The synthesized materials are nanoscale powders. Depending on the time of mechanosynthesis and a used form of carbon, the phase composition of the composites is significantly different. It is shown that compared with graphite, fullerite is characterized by higher stability in the composition of iron-containing mechanocomposites. The sequence of the fullerite structural changes during mechanosynthesis is as follows: fullerite → amorphous fullerite-like phase → amorphous carbon. When fullerenes are retained, carbides are not formed in the system fullerite-Fe. After the formation of amorphous carbon, the compared composites fullerite-Fe and graphite-Fe have the same composition (Fe3C, Fe7C3, paramagnetic P-phase and amorphous carbon). The stability of the mechanically synthesized phases at heating has been studied. [Display omitted] •Mechanocomposites C60/70-Fe and Cg-Fe with the content of fullerite and graphite of 75 at% have been obtained.•The deformation stability of C60/70 and Cg determines the carbides formation kinetics.•When fullerenes are retained carbides are not formed.•The stability of Fe3C, Fe7C3 and paramagnetic P-phase at heating has been studied.
doi_str_mv 10.1016/j.jallcom.2022.164749
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source ScienceDirect Journals
subjects Carbon
Cementite
Comparative studies
Composite materials
Fullerenes
Graphite
Hyperfine interactions
Iron carbides
Kinetics
Mechanical alloying
Nanostructured materials
Phase composition
Photoelectrons
Stability
Synthesis
Thermal analysis
title Structural-phase composition of iron-containing high carbon composites with fullerite and graphite obtained by mechanosynthesis
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