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Mechanical properties of magnetic gels containing rod-like composite particles

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Identificadores
URI: http://hdl.handle.net/10481/67761
DOI: 10.1098/rsta.2018.0218
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Autor
Abrougui, Mariem M.; López López, Modesto Torcuato; García López-Durán, Juan De Dios
Fecha
2019
Referencia bibliográfica
Phil. Trans. R. Soc. A 377: 20180218
Patrocinador
This study was supported by project FIS2017-85954-R (Ministerio de Economía, Industria y Competitividad, MINECO, and Agencia Estatal de Investigación, AEI, Spain, cofunded by Fondo Europeo de Desarrollo Regional, FEDER, European Union)
Resumen
Magnetic gels (ferrogels) are heterogeneous systems structured at the nanoscale that contains magnetic particles dispersed in 3-D networks of polymer chains. In the present work, the magnetic particles were synthesized with a core-shell structure, consisting of sepiolite particles covered by magnetite nanoparticles. These composite particles had a rod-like shape with a high aspect ratio. The obtained sepiolite-magnetite particles showed a high enough susceptibility and saturation magnetization. The magnetorheological (MR) properties, and the intensity of the MR effect, of aqueous suspensions of the synthesized particles, were studied. The particles, functionalized by adsorption of alginate molecules, were imbedded in alginate hydrogels to get homogeneous soft materials. The particles were linked to the polymer chains as the knots in a network and dominated in a great extent the mechanical properties of the materials. After determining the optimal compositions of the ferrogels, their viscoelastic properties were measured in the absence/presence of magnetic fields. The results pointed out that the MR effect provided by the clay-magnetite particles was considerably more intense than those achieved in ferrogels that contain spherical magnetic microparticles. Therefore, the imbedding of rod-shaped magnetic particles in hydrogels allows controlling the mechanical properties in a wider range than in conventional ferrogels
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