Toplayici Plaka Malzeme Ve Kalinliğinin Elektrospun Elyaf İnceli̇ği̇ Üzeri̇ndeki̇ Etki̇si̇ni̇n Teori̇k Bi̇r Anali̇z İle İncelenmesi̇

ŞİMŞEK GÜNDÜZ, Gonca; GÖKTEPE, Fatma; ALİSOY, Hafiz; GÖKTEPE, Özer

doi:10.47933/ijeir.1336360

International Journal of Engineering and Innovative Research

2023

DOI: 10.47933/ijeir.1336360

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Toplayici Plaka Malzeme Ve Kalinliğinin Elektrospun Elyaf İnceli̇ği̇ Üzeri̇ndeki̇ Etki̇si̇ni̇n Teori̇k Bi̇r Anali̇z İle İncelenmesi̇

Gonca ŞİMŞEK GÜNDÜZ,

Fatma GÖKTEPE,

Hafiz ALİSOY

et al.

Abstract: The aim of this study is to examine the morphological properties of fibers produced by using metal plates of different thickness and materials as collectors in electrospinning. For this, circular shaped aluminum and copper plates of 1 mm, 5 mm, 10 mm thickness were used. The results show that much finer fibers were obtained when copper collectors are used compared to aluminum collectors. When the effect of collector thickness is analyzed, it was observed that fiber fineness increased as the collector thickness… Show more

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2024

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Cited by 2 publications

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Analysis of the Formation of Material Structures with Axial Symmetry by Strong Electric Field

Alisoy,

Demir,

Alisoy

2024

European Journal of Engineering and Applied Sciences

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To solve various technical problems, technologies are needed that allow creating new types of functionally graded anisotropic composite materials with directional properties. The formation of such structures based on additive technologies continues to retain its relevance every day. In this context, this paper proposes a new approach to creating a structure with axial symmetry and electrical or mechanical properties. In this case, the possibility of controlling the movement and direction of particles using strong electric fields is used. Taking into account the presence of a strong electric field in a condensed medium located in the interelectrode space, a mathematical model for the formation of a structure with axial symmetry is proposed, based on the analysis of the forces acting on the particles in the medium. For this model, as a result of some simplifications, analytical solutions were found. According to the results obtained, it is believed that a strong electric field also allows forming certain structures of materials and products with certain properties from microparticles, similar to polymer chemistry.

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Analysis of the Formation of Material Structures with Axial Symmetry by Strong Electric Field

Alisoy,

Demir,

Alisoy

2024

European Journal of Engineering and Applied Sciences

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Dynamics of Charging of Dielectric Liquid Drops in a Corona Discharge Field

Alisoy,

Demir,

Alisoy

2024

European Journal of Engineering and Applied Sciences

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The development of innovative electrojet technologies based on the formation of sequential flows of monodisperse droplets in the working environment remains among the current problems today. In this study, it has been determined that in the “needle-plane” electrode system where corona discharge occurs. The charging kinetics of spherical particles are investigated in this system. These particles were created under equal conditions for various dielectric liquids. The spherical particles had different radii and different relative dielectric permittivities. The study determined that the charging kinetics of these particles differ. This difference depends on the polarity of the small radius electrode. In particular, the effective ionization coefficient in an electronegative gas environment (e.g. in air) where corona discharge occurs, it has been shown that when the needle electrode has a negative polarity, the amount of charge accumulated on the spherical particle is higher compared to the positive polarity case.

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Toplayici Plaka Malzeme Ve Kalinliğinin Elektrospun Elyaf İnceli̇ği̇ Üzeri̇ndeki̇ Etki̇si̇ni̇n Teori̇k Bi̇r Anali̇z İle İncelenmesi̇

Cited by 2 publications

References 32 publications

Analysis of the Formation of Material Structures with Axial Symmetry by Strong Electric Field

Analysis of the Formation of Material Structures with Axial Symmetry by Strong Electric Field

Dynamics of Charging of Dielectric Liquid Drops in a Corona Discharge Field

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