C. Vales-Pinzon scite author profile

A simple photothermal methodology for determining simultaneously and in four different ways the thermal diffusivity and thermal effusivity of the illuminated layer in a two-layer system is presented. The method is based on the analysis of the photothermal signal of the whole system normalized by the corresponding signal of the illuminated one-layer system. Our approach uses the modulation frequencies at which the normalized amplitude (phase) passes through unity (zero) and reaches its maximum (minimum). It is shown that these four characteristic modulation frequencies are independent of the thermal effusivities of the layers, and their values can be used to obtain the thermal diffusivity of the illuminated layer. Then, by using the exact complex expression of the normalized photothermal signal with the experimental data for its amplitude and phase, the thermal effusivity of the same layer can be found. In order to show the usefulness of this approach, the method is applied to a glassy carbon sample in thermal contact with three different types of very thick back layers of air, water, and glycerine. It is shown that the highest (lowest) accuracy on the measurement of the thermal properties corresponds to the frequency at which the zero (minimum) of the normalized phase occurs. V C 2012 American Institute of Physics.

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Thermal transfer in mixtures of ethylene glicol with carbon coated iron nanoparticles under the influence of a uniform magnetic field

Vales-Pinzon¹,

Medina-Esquivel²,

Ordoñez-Miranda

et al. 2015

Journal of Alloys and Compounds

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International audienceIn this work, the study of the heat transfer enhancement induced by aligning iron nanoparticles in an ethylenglicol fluid matrix is presented. In particular the effect of the interface is studied by analyzing the cases in which the nanoparticles are coated with carbon and comparing with uncoated ones. Results indicate that the coating acts as a thermal barrier making thermal conductivity to decrease. Moreover, the magnetic field creates aligned columns that enhance the heat transfer. Effective models are used to determine the role of the coating as well as of the aligning of the nanoparticles

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C. Vales-Pinzon

Polarized light transmission in ferrofluids loaded with carbon nanotubes in the presence of a uniform magnetic field

Thermal characterization of magnetically aligned carbonyl iron/agar composites

Study of the thermal properties of polyester composites loaded with oriented carbon nanofibers using the front-face flash method

Photothermal characterization of the thermal properties of materials using four characteristic modulation frequencies in two-layer systems

Thermal transfer in mixtures of ethylene glicol with carbon coated iron nanoparticles under the influence of a uniform magnetic field

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