Models of Textile Magnetic Core

Zięba, J.

doi:10.1108/rjta-11-04-2007-b009

Cited by 7 publications

(5 citation statements)

References 2 publications

(3 reference statements)

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“…Incorporation of transition metals such as iron and iron oxides in TiO 2 has been extensively studied as a promising approach for overcoming the problems encountered with TiO 2 . − Iron oxide nanoparticles are tailored by their specific properties including biocompatibility, electronic, magnetic, and sensor applications . Numerous techniques have been proposed for preparing iron oxide nanoparticles, and coprecipitation is the most convenient and low-cost method. , Textiles with magnetic nanoparticles will create new properties including magnetism and electromagnetic wave shielding. − Magnetic textiles as intelligent cloths can be suitable for bioseparation, biosensors, magnetographic printing, magnetic screens, and magnetic filters…”

Section: Introductionmentioning

confidence: 99%

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO₂/Fe₃O₄/Ag Nanocomposite

Harifi

Montazer

2014

Ind. Eng. Chem. Res.

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A polyester fabric with durable photo-, bio-, and magneto-activities was prepared in a single-step process. In the proposed method alkali hydrolysis of polyester fabric was carried out along with the synthesis of the TiO 2 /Fe 3 O 4 /Ag nanocomposite, which enhanced the surface activity and nanoparticles adsorption, and produced ethylene glycol for reducing silver nitrate into nano-silver. The uniform distribution of the nanocomposite on the fiber surface was confirmed by FESEM and EDX. The fabrics showed an excellent photoactivity toward degradation of Methylene Blue under sunlight irradiation. The treated samples showed reasonable saturation magnetization and excellent antibacterial activity against Staphylococcus aureus and Escherichia coli. The tensile properties of the treated samples were enhanced as compared to the untreated fabric. Moreover, a central composite design based on response surface methodology was applied to study the influence of Fe 2+ /TiO 2 and Ag/TiO 2 molar ratio in the prepared nanocomposite, and the appropriate molar ratios for the best photoactivity were obtained.

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Section: Introductionmentioning

confidence: 99%

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO₂/Fe₃O₄/Ag Nanocomposite

Harifi

Montazer

2014

Ind. Eng. Chem. Res.

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“…Currently, there are only few literature references related to magnetic staple yarns produced from natural fibers (Bedeloglu et al, 2012;Rubacha & Zięba, 2006;Zięba, 2007). Therefore, in this paper we present a method for obtaining magnetic yarns by direct coating *Corresponding author.…”

Section: Introductionmentioning

confidence: 96%

Magnetic cotton yarns – optimization of magnetic properties

Grosu

Lupu

Cramariuc

et al. 2015

The Journal of The Textile Institute

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In this paper, we present the effect of ferrite percentage content and electric current intensity passing through the electromagnet coil on magnetic properties (saturation induction, residual induction, and coercive field) of magnetic staple yarns. Also, we present a method for obtaining magnetic yarns by direct coating with magnetic powder (barium ferrite). The aim of the study is to determine the optimal processing factors that can affect the performance of magnetic characteristics using an experimental design for second-order model. The results show that an increase in ferrite percentage content is influencing the saturation and residual induction more than an increase in applied current intensity. The increase in saturation and residual induction is due to the higher content of ferrite powder from the magnetic solution that adheres on the yarn surface. The higher is the value of coercive field, the larger is the force needed to completely demagnetize the magnetic yarn.

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“…Simulations of the magnetic properties of such fibers, yarns or fabrics are scarce. Only a few articles report about modeling of magnetic microfibers [21] or of the magnetic core of a textile coil [22]. This article thus aims at giving an overview of the possibilities and borders of modeling magnetic fibers as well as magnetic coatings on fibers and textile fabrics.…”

Section: Introductionmentioning

confidence: 99%

Micromagnetic Simulation of Fibers and Coatings on Textiles

Ehrmann

Błachowicz

2015

J. Inst. Eng. India Ser. E

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Simulations of mechanical or comfort properties of fibers, yarns and textile fabrics have been developed for a long time. In the course of increasing interest in smart textiles, models for conductive fabrics have also been developed. The magnetic properties of fibers or magnetic coatings, however, are almost exclusively being examined experimentally. This article thus describes different possibilities of micromagnetically modeling magnetic fibers or coatings. It gives an overview of calculation times for different dimensions of magnetic materials, indicating the limits due to available computer performance and shows the influence of these dimensions on the simulated magnetic properties for magnetic coatings on fibers and fabrics.

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Models of Textile Magnetic Core

Cited by 7 publications

References 2 publications

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO₂/Fe₃O₄/Ag Nanocomposite

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO₂/Fe₃O₄/Ag Nanocomposite

Magnetic cotton yarns – optimization of magnetic properties

Micromagnetic Simulation of Fibers and Coatings on Textiles

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Models of Textile Magnetic Core

Cited by 7 publications

References 2 publications

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO2/Fe3O4/Ag Nanocomposite

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO2/Fe3O4/Ag Nanocomposite

Magnetic cotton yarns – optimization of magnetic properties

Micromagnetic Simulation of Fibers and Coatings on Textiles

Contact Info

Product

Resources

About

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO₂/Fe₃O₄/Ag Nanocomposite

Photo-, Bio-, and Magneto-active Colored Polyester Fabric with Hydrophobic/Hydrophilic and Enhanced Mechanical Properties through Synthesis of TiO₂/Fe₃O₄/Ag Nanocomposite