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Realization of the strength of Armos fibres with different acidity in epoxy plastics
Summary
The acidity of Armos aramid fibers significantly affects their strength realization in microplastic composites, with an optimal moisture content existing for each fiber pH level that maximizes both fiber strength and adhesive bond performance. Optimizing fiber-matrix interfaces in polymer composites to maximize strength retention is directly relevant to reducing mechanical degradation and microplastic generation from composite plastic materials.
The acidity of Armos fibres significantly affects the strength of the fibre in a microplastic as a function of the moisture content of the starting fibre. There is an optimum moisture content at which maximum realization of the fibre strength in the microplastic is attained for each fibre pH. The highest strength of the adhesive bond of Armos fibre is attained for acid fibres, and the best realization of the strength in ringshaped samples of an organoplastic is obtained for neutral fibres.