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The Design Technique of Melting Units for Production of Synthetic Fibrous Materials by Vertical Blowing Method

The Design Technique of Melting Units for Production of Synthetic Fibrous Materials by Vertical... AbstractThis paper presents the technology of production of synthetic fibrous materials from PET-row by vertical blowing method. The formation of fibers from the melt of thermoplastics by vertical blowing method is accompanied by complex and specific phenomena, so creation of new progressive technologies, high-performance machines and units for producing such materials is impossible without process modeling, which can significantly reduce the number of natural tests, cost and development time and choose optimal operating modes. The motion of the molten material in the melting unit of the hydrostatic type is determined from the Poiseuille formula. Also in the article proved that the greatest impact on process productivity is made by the melting unit, exactly by outlet radius and the pressure change of compressed air, acting on the molten material surface. The increase in the height of the molten material column in the main cylindrical chamber of melting unit also leads to increase of process productivity. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Management Systems in Production Engineering de Gruyter

The Design Technique of Melting Units for Production of Synthetic Fibrous Materials by Vertical Blowing Method

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Publisher
de Gruyter
Copyright
© 2019 Vladislav Sviatskii et al., published by Sciendo
eISSN
2450-5781
DOI
10.1515/mspe-2019-0005
Publisher site
See Article on Publisher Site

Abstract

AbstractThis paper presents the technology of production of synthetic fibrous materials from PET-row by vertical blowing method. The formation of fibers from the melt of thermoplastics by vertical blowing method is accompanied by complex and specific phenomena, so creation of new progressive technologies, high-performance machines and units for producing such materials is impossible without process modeling, which can significantly reduce the number of natural tests, cost and development time and choose optimal operating modes. The motion of the molten material in the melting unit of the hydrostatic type is determined from the Poiseuille formula. Also in the article proved that the greatest impact on process productivity is made by the melting unit, exactly by outlet radius and the pressure change of compressed air, acting on the molten material surface. The increase in the height of the molten material column in the main cylindrical chamber of melting unit also leads to increase of process productivity.

Journal

Management Systems in Production Engineeringde Gruyter

Published: Mar 1, 2019

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