Projection of structure and compositions of resistance to burning polymer composite materials with flame retardants based on magnesium hydroxide

Projection of structure and compositions of resistance to burning polymer composite materials with flame retardants based on magnesium hydroxide

Objectives. To identify general principles for the design of dispersed-filled polymer composite materials (DFPCMs) with different generalized and reduced parameters, as well as types of disperse structure with high fire resistance; to develop an algorithm for the creation of non-combustible polymer...

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Bibliographic Details
Main Authors: K. A. Brekhova, I. D. Simonov-Emel'yanov, A. A. Pykhtin
Format: Article
Language:Russian
Published: MIREA - Russian Technological University 2023-05-01
Series:Тонкие химические технологии
Subjects:
composite materials
disperse structure
oxygen index
resistance to burning
cable composition
eva
mineral flame retardants
Online Access:https://www.finechem-mirea.ru/jour/article/view/1953
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Summary:Objectives. To identify general principles for the design of dispersed-filled polymer composite materials (DFPCMs) with different generalized and reduced parameters, as well as types of disperse structure with high fire resistance; to develop an algorithm for the creation of non-combustible polymer composites with flame-retardant fillers.Methods. Scanning electron microscopy and laser diffraction were used to assess the shape, size, and particle size distribution of flame retardants. According to the presented classification of DFPCMs by structural principle, standard bar samples were obtained to determine the oxygen index (OI) and the fire resistance category.Results. For the MFS-2 (medium filled system) and HFS (high filled system) structure types, the maximum resistance to burning (category V-0) is achieved with a generalized parameter of ® ≤ 0.40 volume fractions; the OI value increases in 2 times (up to ~40%) in relation to the polymer matrix.Conclusions. In order to obtain a flame retardant DFPCMs (OI = 40%, category V-0) based on ethylene vinyl acetate with OI = 20% and magnesium hydroxide (brucite), the amount of water vapor released during the decomposition of the flame-retardant filler should be at least ~250 mL/g with a coke residue ~32%. A developed algorithm for calculating compositions and generalized parameters for the creation of DFPCMs having a predetermined type of disperse structure and high resistance to burning is presented.
ISSN:2410-6593
2686-7575

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