Síntese e caracterização de novos materiais líquido-cristalinos derivados de bifenilcarboxilatos e 3,5-isoxazolinas

Este trabalho mostra a síntese de novos materiais poliméricos utilizando como unidade mesogênica anéis bifenilas, com um grupo espaçador de onze unidades metilênicas, com uma cadeia polimérica acrilato e que apresentam como grupo terminal uma porção quiral sintetizada a partir de L-isoleucina. Os monômeros apresentaram comportamento enantiotrópico mesofases esmética C e A quiral. Do mesmo modo, os polímeros apresentaram mesofase esmética A estável no aquecimento e no resfriamento. Foi realizado também a síntese de poliacrilatos tendo presente como grupo de ligação na unidade mesogênica o anel isoxazolina. Para a construção do heterocíclico de cinco membros utilizou-se como metodologia de síntese a reação de cicloadição 1,3-Dipolar. Foram sintetizados materiais poliméricos e não poliméricos. Os monômeros isoxazolínicos não apresentaram mesofase, entretanto, os homopolímeros apresentaram mesofase nemática. As Isoxazolinas não-poliméricas não apresentaram mesofase. A síntese de isoxazoliltolanos foi realizada combinando a metodologia de cicloadição 1,3-dipolar e a reação de Sonogashira. Foram sintetizados compostos que apresentaram mesofase nemática monotrópica.

Processamento e caracterização de compósitos Poli(METACRILATO DE METILA)/Sílica (PMMA/SiO2)

Currently the search for new materials with properties suitable for specific applications has increased the number of researches that aim to address market needs. The poly (methyl methacrylate) (PMMA) is one of the most important polymers of the family of polyacrylates and polymethacrylates, especially for its unique optical properties and weathering resistance, and exceptional hardness and gloss. The development of polymer composites by the addition of inorganic fillers to the PMMA matrix increases the potential use of this polymer in various fields of application. The most commonly used inorganic fillers are particles of silica (SiO2), modified clays, graphite and carbon nanotubes. The main objective of this work is the development of PMMA/SiO2 composites at different concentrations of SiO2, for new applications as engineering plastics. The composites were produced by extrusion of tubular film, and obtained via solution for application to commercial PMMA plates, and also by injection molding, for improved the abrasion and scratch resistance of PMMA without compromising transparency. The effects of the addition of silica particles in the polymer matrix properties were evaluated by the maximum tensile strength, hardness, abrasion and scratch resistance, in addition to preliminary characterization by torque rheometry and melt flow rate. The results indicated that it is possible to use silica particles in a PMMA matrix, and a higher silica concentration produced an increase of the abrasion and scratch resistance, hardness, and reduced tensile strength

Processamento e caracterização de compósitos Poli(METACRILATO DE METILA)/Sílica (PMMA/SiO2)

Currently the search for new materials with properties suitable for specific applications has increased the number of researches that aim to address market needs. The poly (methyl methacrylate) (PMMA) is one of the most important polymers of the family of polyacrylates and polymethacrylates, especially for its unique optical properties and weathering resistance, and exceptional hardness and gloss. The development of polymer composites by the addition of inorganic fillers to the PMMA matrix increases the potential use of this polymer in various fields of application. The most commonly used inorganic fillers are particles of silica (SiO2), modified clays, graphite and carbon nanotubes. The main objective of this work is the development of PMMA/SiO2 composites at different concentrations of SiO2, for new applications as engineering plastics. The composites were produced by extrusion of tubular film, and obtained via solution for application to commercial PMMA plates, and also by injection molding, for improved the abrasion and scratch resistance of PMMA without compromising transparency. The effects of the addition of silica particles in the polymer matrix properties were evaluated by the maximum tensile strength, hardness, abrasion and scratch resistance, in addition to preliminary characterization by torque rheometry and melt flow rate. The results indicated that it is possible to use silica particles in a PMMA matrix, and a higher silica concentration produced an increase of the abrasion and scratch resistance, hardness, and reduced tensile strength