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The magneto-dimensional transformation properties of the ultradispersed metallic media as a mechanism for managing the macrodynamic features of crystallizing thermoplastic nanocomposites

The magneto-dimensional transformation properties of the ultradispersed metallic media as a mechanism for managing the macrodynamic features of crystallizing thermoplastic nanocomposites

The work considers the main elements of the magneto-dimensional transformation properties in the ultradispersed metallic media (UDM) as a nanomodifier in the process of the formation of nanocompositional polymeric materials (NCPM) based on polyolefins (PO) from a melt. It has been shown that UDM nan...

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Bibliographic Details
Main Authors: Danilova-Volkovskaya, G. M., Данилова-Волковская, Г. М.
Format: Статья
Language:English
Published: Trans Tech Publications Ltd 2021
Subjects:
A network of intermolecular entanglements
Ultradispersed metallic medium
Deformation-strength
Heterophase system
Rheological properties
Transformation
Physicochemical properties
Nanoparticles
Nanocomposite polymer materials
Magneto-dimensional properties
Macrodynamic properties
Crystallizing thermoplastic
Online Access:https://dspace.ncfu.ru/handle/20.500.12258/18482
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Summary:The work considers the main elements of the magneto-dimensional transformation properties in the ultradispersed metallic media (UDM) as a nanomodifier in the process of the formation of nanocompositional polymeric materials (NCPM) based on polyolefins (PO) from a melt. It has been shown that UDM nanoparticles in a melt under the influence and interaction with a thermoplastic matrix are capable of transforming their magnetic properties (to the level of superparamagnetic), structural-dimensional parameters, and chemical potential. With this mutual influence, the nanomodifier has an active effect on the thermoplastic melt at all stages of the formation of the structure-property relationship: structureless ensembles of macromolecules → formation of clusters (domains), lamellas, crystallites → formation of a network of intermolecular entanglements → crystallization of the thermoplastic matrix → transition to a condensed state. An important component of the formation of a fine-crystalline anisotropic NCPM structure is the intramatrix orientation of the structural elements of the thermoplastic in the melt under the influence of the magneto-dimensional transformable manifestations of the nanomodifier. A consequence of the formation of a fine-crystalline anisotropic structure of the NCPM is an increased level of a complex of physicochemical properties (such as deformation-strength, rheological, etc.). An assumption is made about the possibility of the formation of coherent wave packets from clusters (domains) and lamellas of crystallites of matrix thermoplastic with a minimum three-dimensional geometry under the action of superparamagnetic forces of nanoparticles of the nanomodifier.

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