Thermal properties of composite materials with a complex fractal structure

In this work, we report the thermal characterization of platelike composite samples made of polyester resin and magnetite inclusions. By means of photoacoustic spectroscopy and thermal relaxation, the thermal diffusivity, conductivity and volumetric heat capacity of the samples were experimentally m...

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Published in	arXiv.org
Main Authors	Cervantes-Álvarez, F, Reyes-Salgado, J J, Dossetti, V, Carrillo, J L
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 25.04.2014
Subjects	Anisotropy Complexity Composite materials Domains Elongated structure Heat transfer Inclusions Magnetite Physics - Materials Science Polyester resins Thermal conductivity Thermal diffusivity Thermal relaxation Thermal response Thermodynamic properties
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Abstract	In this work, we report the thermal characterization of platelike composite samples made of polyester resin and magnetite inclusions. By means of photoacoustic spectroscopy and thermal relaxation, the thermal diffusivity, conductivity and volumetric heat capacity of the samples were experimentally measured. The volume fraction of inclusions was systematically varied in order to study the changes in the effective thermal conductivity of the composites. In some samples, a static magnetic field was applied during the polymerization process resulting in anisotropic inclusion distributions. Our results show a decrease in the thermal conductivity of some of the anisotropic samples compared to the isotropic randomly distributed ones. Our analysis indicates that the development of elongated inclusion structures leads to the formation of magnetite and resin domains causing this effect. We correlate the complexity of the inclusion structure with the observed thermal response by a multifractal and lacunarity analysis. All the experimental data are contrasted with the well known Maxwell-Garnett's effective media approximation for composite materials.
AbstractList	J. Phys. D: Appl. Phys. 47 (2014) 235303 In this work, we report the thermal characterization of platelike composite samples made of polyester resin and magnetite inclusions. By means of photoacoustic spectroscopy and thermal relaxation, the thermal diffusivity, conductivity and volumetric heat capacity of the samples were experimentally measured. The volume fraction of inclusions was systematically varied in order to study the changes in the effective thermal conductivity of the composites. In some samples, a static magnetic field was applied during the polymerization process resulting in anisotropic inclusion distributions. Our results show a decrease in the thermal conductivity of some of the anisotropic samples compared to the isotropic randomly distributed ones. Our analysis indicates that the development of elongated inclusion structures leads to the formation of magnetite and resin domains causing this effect. We correlate the complexity of the inclusion structure with the observed thermal response by a multifractal and lacunarity analysis. All the experimental data are contrasted with the well known Maxwell-Garnett's effective media approximation for composite materials. In this work, we report the thermal characterization of platelike composite samples made of polyester resin and magnetite inclusions. By means of photoacoustic spectroscopy and thermal relaxation, the thermal diffusivity, conductivity and volumetric heat capacity of the samples were experimentally measured. The volume fraction of inclusions was systematically varied in order to study the changes in the effective thermal conductivity of the composites. In some samples, a static magnetic field was applied during the polymerization process resulting in anisotropic inclusion distributions. Our results show a decrease in the thermal conductivity of some of the anisotropic samples compared to the isotropic randomly distributed ones. Our analysis indicates that the development of elongated inclusion structures leads to the formation of magnetite and resin domains causing this effect. We correlate the complexity of the inclusion structure with the observed thermal response by a multifractal and lacunarity analysis. All the experimental data are contrasted with the well known Maxwell-Garnett's effective media approximation for composite materials.
Author	Reyes-Salgado, J J Carrillo, J L Dossetti, V Cervantes-Álvarez, F
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BackLink	https://doi.org/10.1088/0022-3727/47/23/235303$$DView published paper (Access to full text may be restricted) https://doi.org/10.48550/arXiv.1404.6475$$DView paper in arXiv
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Snippet	In this work, we report the thermal characterization of platelike composite samples made of polyester resin and magnetite inclusions. By means of photoacoustic... J. Phys. D: Appl. Phys. 47 (2014) 235303 In this work, we report the thermal characterization of platelike composite samples made of polyester resin and...
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SubjectTerms	Anisotropy Complexity Composite materials Domains Elongated structure Heat transfer Inclusions Magnetite Physics - Materials Science Polyester resins Thermal conductivity Thermal diffusivity Thermal relaxation Thermal response Thermodynamic properties
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Title	Thermal properties of composite materials with a complex fractal structure
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