In-situ synthesis of AgCu/Cu2O nanocomposite by mechanical alloying: The effect of the processing on the thermal behavior

[Display omitted] TG heating curves for Ag–Cu samples vs. the milling time, recorded during the heating. The samples’ mass variation is strongly dependent on the powders’ specific surface, respectively the milling time. •AgCu bimetallic composites reinforced by Cu2O has been studied.•The milling tim...

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Bibliographic Details
Published inThermochimica acta Vol. 606; pp. 1 - 11
Main Authors Gingu, Oana, Rotaru, P., Milea, A., Marin, A., Nicolicescu, C., Sima, Gabriela, Tanasescu, Speranta
Format Journal Article
LanguageEnglish
Published Elsevier B.V 20.04.2015
Subjects
Drop calorimetry
Mechanical alloying
Nanocomposite
Photoelectron spectroscopy
Thermal analysis
XRD
Nanocomposite
Thermal analysis
XRD
Drop calorimetry
Mechanical alloying
Photoelectron spectroscopy
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Summary:[Display omitted] TG heating curves for Ag–Cu samples vs. the milling time, recorded during the heating. The samples’ mass variation is strongly dependent on the powders’ specific surface, respectively the milling time. •AgCu bimetallic composites reinforced by Cu2O has been studied.•The milling time influences the particle size distribution of the particles.•The thermal behavior of the mixtures has been studied by TG and DSC, in argon.•Correlation of thermal stability with thermal expansion properties was made. The influence of the mechanical alloying processing parameters on the elaboration of AgCu-based bimetallic matrix composites reinforced by in-situ synthesized Cu2O has been studied. The milling time (20, 45 and 80h) of the initial 72% mass Ag+28% mass Cu micrometric powders mixture influences the particle size distribution of the obtained composite particles. After 80h of mechanical alloying, AgCu/Cu2O nanoparticles of 60–80nm are obtained and their chemical composition at bulk/surface level has been determined by X-ray diffraction and photoelectron spectroscopy. The effect of milling time on the thermal behavior of the powders samples has been studied by thermogravimetry and differential scanning calorimetry measurements in argon atmosphere. The argon chemosorbtive reaction from the particles surface has been identified and the binding energy (0.9–1.99eV) has been calculated. The isothermal drop calorimetry and the linear thermal expansion measurements were used to evaluate the correlation between thermal stability and thermal expansion properties of the in-situ synthesized AgCu/Cu2O nanocomposite.
ISSN:0040-6031
1872-762X
DOI:10.1016/j.tca.2015.03.002