Avaliação da ação de estabilizantes anti-UV no desempenho de compósitos de polipropileno, reforçados com fibras de coco, submetidos a diferentes técnicas de envelhecimento artificial
Resumo
Currently, there has been a search for economically viable and sustainable
products in various market segments. Lighter materials that can be recycled
have become a strategic issue for many industries. In this sense, the utilization
of lignocellulosic fibers in polymeric composites, are becoming increasingly
viable as substitutes for inorganic minerals reinforcements, mainly glass fibers.
In this study, polypropylene (PP) natural composites reinforced with coir fiber
(CF), compatibilized with maleic anhydride grafted polypropylene (PPMAH) and
stabilized with a hindered amine (Tinuvin® 791) and UV absorber (Hostavin®
ARO 8), were prepared via extrusion. The effect of the additives and their
interactions and the influence of 1000 hours exposure in two types of
accelerated weathering (Ultraviolet B and xenon arc) in the PP/CF composites
were analyzed by mechanical properties (tensile properties), scanning electron
microscopy (SEM), differential Scanning Calorimetry (DSC) and colorimetry.
The results indicate that the incorporation of coir fiber, in the presence of the
compatibilizer, significantly increases tensile strength, but in the absence of the
compatibilizer, the coir fiber act as stress concentrators, allowing a lower tensile
strength to the sample.The joint presence of Tinuvin® and the compatibilizer
has a negative effect on tensile strength and on the compatibility of the natural
fiber with the matrix. UV absorber did not affect the compatibility of the PP/CF
composites. Post-weathering results indicate that UVB caused more intense
degradation than xenon arc. However, decreasing Tinuvin® efficiency evidence
were not possible to be confirmed. Through electron micrographs, DSC
analysys and tensile tests, it is noted the additive system based on (Tinuvin®+
Hostavin®) as the most effective protection system against the artificial
weathering.