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Fabrication of Layered Hydroxide Composite with Polydimethylsiloxane Hydroxy-Terminated for Epoxy Resin Flame Retardancy
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Fabrication of Layered Hydroxide Composite with Polydimethylsiloxane Hydroxy-Terminated for Epoxy Resin Flame Retardancy
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Journal Article
Fabrication of Layered Hydroxide Composite with Polydimethylsiloxane Hydroxy-Terminated for Epoxy Resin Flame Retardancy
2023
Overview
The advantage of the concurrent development in polymers flame retardant is illustrated by the hybrid material technology of flame retardants, which, as opposed to conventional flame retardants, blends distinct elements into a whole. Layered zinc hydroxide, sodium dodecyl sulfate, borate ion, and polydimethylsiloxane were used to make a flame retardant composite, a new organic–inorganic hybrid material as a flame retardant. Using analysis methods, the structures of materials were investigated following synthesis. The interlayer space of the layered zinc hydroxide was studied for the intercalation of ions, according to the X-ray diffraction studies. The chemical structure of produced compounds was assessed with energy dispersive spectrum and fourier transforms infrared spectroscopy. The morphology of the synthesized materials was identified using emission scanning electron microscopy. The thermal resistance of the synthesized samples and coating samples was measured by thermogravimetric analysis. By adding a little amount of flame retardant composite flame retardant, the fire danger of epoxy resin was significantly decreased. According to the plate temperature and flammability test experiment, flame retardant composite with 0.075% w/w led to showed that the synergistic role of the flame retardant composite compound including zinc, borate ions, and also the polydimethylsiloxane played a significant role in reducing the risks of epoxy resin hazard flaming as well as reducing heat and damage to the metal substrate.
Graphical Abstract
