Evolution of thermal properties of natural rubber nanocomposites functionalized by nickel–zinc ferrite and potassium strontium niobate nanopowders

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Data

2016-12-01

Autores

Bellucci, Felipe Silva [UNESP]
Almeida, Fabricio César Lobatode [UNESP]
da Silva Agostini, Deuber Lincon [UNESP]
Nobre, Marcos Augusto Lima [UNESP]
Paschoalini, Amarildo Tabone [UNESP]
Job, Aldo Eloizo [UNESP]

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Resumo

Several composites and nanocomposites based on a polymeric matrix and ceramic fillers are being pursued for use as multifunctional and innovative materials. Nevertheless, there is a series of challenges to be solved in this area such as the understanding of the role of interfaces and the synergy between matrix and fillers. In this work, vulcanized natural rubber nanocomposites were prepared with different concentrations of two kinds of ceramic nanoparticles, potassium strontium niobate (KSr2Nb5O15 or KSN) and nickel–zinc ferrite (Ni0.5Zn0.5Fe2O4 or NZF), synthesized by a chemical method known as the modified polyol method. Morphological and thermal characterizations were carried out by AFM, TG/DTG, TG/FTIR and DSC. The thermal properties of nanocomposites were compared and discussed as functions of concentration, type and surface of nanoparticles. The results obtained suggest that the base concentration for both types of nanoparticles inside the polymer matrix volume greatly adds to the increase in thermal stability up to 11 % and the glass transition temperature up to 10 °C. A similar evolution for the glass transition temperature (Tg), thermal stability temperature (TS) and dielectric permittivity (ε′) was identified, suggesting that these phenomena are mainly dominated by the same mechanisms. These results point to the possibility for the thermal parameter modulation in magnetic and ferroelectric nanocomposites by means of a suitable control of concentration and properties of the KSN and NZF nanoparticles.

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Functionalized nanocomposites, Glass transition temperature, Nickel–zinc ferrite, Potassium strontium niobate, Thermal properties, Thermal stability

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Journal of Thermal Analysis and Calorimetry, v. 126, n. 3, p. 1397-1406, 2016.