Silicone elastomers filled with rare earth oxides
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Other documents of the author: Iacob, Mihail; Airinei, Anton; Asandulesa, Mihail; Dascalu, Mihaela; Tudorachi, Nita; Hernandez, Leonor; Cazacu, María
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comunitat-uji-handle2:10234/7035
comunitat-uji-handle3:10234/8617
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Title
Silicone elastomers filled with rare earth oxidesAuthor (s)
Date
2020Publisher
IOP Publishing LtdISSN
2053-1591Bibliographic citation
Mihail Iacob et al 2020 Mater. Res. Express 7 035703Type
info:eu-repo/semantics/articlePublisher version
https://iopscience.iop.org/article/10.1088/2053-1591/ab7a5eVersion
info:eu-repo/semantics/publishedVersionSubject
Abstract
Silicones which possess, amongst others, remarkable mechanical properties, thermal stability over a
wide range of temperatures and processability, and rare earth oxides(REO), known for their unique
optic, magnetic ... [+]
Silicones which possess, amongst others, remarkable mechanical properties, thermal stability over a
wide range of temperatures and processability, and rare earth oxides(REO), known for their unique
optic, magnetic and catalytic properties can be coupled into multifunctional composite materials(SREOs). In addition, the intrinsic hydrophobicity of REO and polysiloxanes makes them easily
compatible without the need for surface treatments of the former. Thus, europium oxide (Eu2O3),
gadolinium oxide (Gd2O3) and dysprosium oxide (Dy2O3)in amounts of 20 pph are incorporated as
fillers into silicone matrices, followed by processing mixture as thin films and crosslinking at room
temperature. The analysis of the obtained films reveals the changes induced by these fillers in the
thermal, mechanical, dielectric and optical properties, as well as the hydrophobicity of the silicones.
The luminescence properties of S-REO composites were investigated by fluorescence spectra and
lifetime - resolved measurements with a multiemission peaks from blue to greenish register. The
thermogravimetrical analysis indicates an increasing of thermal stability of the composites that
contain REO, compared to pure silicone. As expected, the dielectric permittivity significantly
increased due to nature of the fillers, while the dielectric loss values are relatively low for all samples,
indicating a minimal conversion of electrical energy in the form of heat within bulk composites. The
presence of rare earth oxides into the silicone matrix facilitates the motions of long-range charge
carriers through the network resulting in higher values of conductivity of the composite films. The
stress-strain measurements revealed the reinforcing effect of the rare earth metal oxides on a silicone
matrix, leading to a significant increase of Young modulus. The known hydrophobicity of silicones is
further enhanced by the presence of REO. [-]
Is part of
Mater. Res. Express 7 (2020) 035703Investigation project
PN-III-P1-1.2-PCCDI-2017-0185/76PCCDI/2018, COST Action CA15119Rights
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