Master's Dissertation
DOI
https://doi.org/10.11606/D.85.2016.tde-19042016-143326
Document
Author
Full name
Luiz Gustavo Hiroki Komatsu
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2016
Supervisor
Committee
Parra, Duclerc Fernandes (President)
Bardi, Marcelo Augusto Gonçalves
Oliani, Washington Luiz
Bardi, Marcelo Augusto Gonçalves
Oliani, Washington Luiz
Title in Portuguese
Estudo comparativo de nanocompósitos de polipropileno modificado sob condições de envelhecimento ambiental e acelerado
Keywords in Portuguese
envelhecimento acelerado
envelhecimento ambiental
HMSPP
Montmorilonita
nanocompósito
envelhecimento ambiental
HMSPP
Montmorilonita
nanocompósito
Abstract in Portuguese
O entendimento dos mecanismos de degradação que agem sob os nanocompósitos poliméricos frente ao intemperismo (luz UV, calor, oxigênio, chuva ácida, entre outros), é o ponto chave para o desenvolvimento de novos aditivos e novas aplicações. Para este trabalho a síntese do nanocompósito foi realizada no estado fundido, utilizando-se uma extrusora de dupla rosca. A matriz polimérica utilizada foi o HMS-PP (polipropileno com alta resistência do fundido) sintetizado por irradiação gama e a argila Montmorilonita. Para melhor compatibilização entre a matriz e a nanocarga, foi utilizada o agente compatibilizante andrido maléico. Para os ensaios de envelhecimento ambiental e acelerado em estufa, os corpos de prova foram confeccionados por meio de termoprensagem. A caracterização dos efeitos da adição de argila e do envelhecimento nos nanocompósitos, presupôs o emprego das técnicas de ensaios mecânicos, Calorimetria Diferencial Exploratória (DSC), Termogravimetria (TGA), Espectroscopia no Infravermelho por Transformada de Fourier (FT-IR), Espectrometria de Fluorescêcia de Raios X por Dispersão de Comprimento de Onda (WDXRF), Microscopia Eletrônica de Varredura (MEV), Índice de Fluidez (IF), Difração de Raios-X (DRX) e Espectroscopia de Energia Dispersiva (EDS). Foram ensaiadas amostras com 0,1; 1; 3; 5 e 10% de argila. A amostra com porcentagem de 5% de argila demonstrou uma melhor estabilidade frente ao ensaio de envelhecimento ambiental e no envelhecimento acelerado em estufa. Por outro lado na amostra com maior porcentagem de argila (10%) ocorreu o inverso, sob ensaio ambiental houve maior degradação e sob envelhecimento acelerado em estufa, manteve-se resistente até 56 dias de envelhecimento. Nas porcentagens estudas (menor que ≤ 3%) de argila, pode-se constatar um equilíbrio entre o efeito barreira da argila e a ação dos íons metálicos que aceleram o processo degradativo.
Title in English
Comparative study of modified polypropylene nanocomposites under environment and accelerated ageing conditions
Keywords in English
accelerated ageing
environmental ageing
HMSPP
Montmorillonite
nanocomposite
environmental ageing
HMSPP
Montmorillonite
nanocomposite
Abstract in English
The understanding of degradation mechanism action on the polymer nanocomposites in face of weathering (UV light, heat, acid rain, among others), is the key for development of new additives and new applications. In this work the nanocomposite synthesis was carried in molten state, using twin-screw extruder. The polymer matrix was the HMS-PP (high melt polypropylene) synthesized by gamma irradiation and the nanometric inorganic component was the montmorillonite clay. For better compatibilization between the matrix and clay, it were used maleic anhydride as coupling agent. For environment and in oven accelerated aging assays, the dumbbell samples were prepared under hot pressing. The characterization of clay addition effects and aging effects on the nanocomposites, required the use of techiniques of Differential Scanning Calorimetry (DSC), Thermogravimetry (TGA), Fourier Transformed Infrared Spectroscopy (FT-IR), Xray Fluorescence (WDXRF), Scanning Eletron Microscopy (SEM), Energy Dispersive Spetroscopy (EDS) and mechanical properties. Samples with 0.1; 1; 3; 5; 10 % of clay were tested. The sample with 5% of clay showed better stability on the environmental assay and accelerated aging in oven assay. On the other hand, the sample with higher percent of clay (10%), was more degraded under on environmental aging than under accelerated aging in stove. In this case, became more resistant until 56 days of assay. On the studied concentrations (less than ≤ 3%) of clay, it can be seen an equilibrium between barrier effect and metallic ions action accelerating the degradative process.
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Publishing Date
2016-05-06
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