Mônica Cristina Celestino Santos scite author profile

Mônica Cristina Celestino Santos

5Publications

1Citation Statement Received

68Citation Statements Given

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Affiliations

Rio de Janeiro State University

Publications

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Development of composites based on a blend of recycled HDPE/post-consumer PET and bentonite clay

Lima¹,

Barros²,

Santos³

et al. 2023

Braz. J. Develop.

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The recycling process is the best way to manage waste polymers. From an economic standpoint, more investigation is needed of the whole recycling process to enhance the competitiveness in these systems. A first step is improved interaction and interfacial adhesion of blends. Polyethylene (PE) and polyethylene terephthalate (PET) are incompatible polymers, so their blends in general have poor properties. Compatibilization is thus a necessary step to obtain blends with good mechanical and barrier properties. In this work, blends of recycled (high density polyethylene) (HDPE) and post-consumer PET, with organophilic bentonite clay acting as compatibilization agent at the interface of the two polymers, were obtained. The proportions of HDPE/PET/bentonite (0, 5, 10 and 15% weight percentage of bentonite) were processed by extrusion. The processed materials were characterized regarding density (ASTM D792-13), melt flow index (MFI, ASTM D1238-13), hardness (ASTM D2240–10), infrared absorption spectroscopy (FTIR), X-ray diffractometry (XRD) and scanning electron microscopy (SEM). The results indicated the occurrence of some compatibilization.

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Efeito Da Granulometria Nas Propriedades Físico- Mecânico, Morfológicas E Estruturais De Compósitos De Pead Reciclado E Fibras De Sisal

Ferreira¹,

Barros²,

Silva³

et al. 2023

Rev. Contemp.

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O descarte de resíduos plásticos representa uma ameaça ao meio ambiente devido ao longo tempo de degradação. A busca por alternativas que visam a diminuição dos impactos ambientais causados pela geração destes resíduos vem crescendo constantemente. Uma das alternativas é a reciclagem ou a reintrodução desses materiais através da obtenção de materiais compósitos. O polietileno (PE) é um dos materiais que constitui um grande volume de resíduos poliméricos, enquanto a fibra de sisal vem sendo utilizada como reforço em plásticos nos últimos anos. Desta forma, nesse trabalho foram obtidos compósitos de PEAD reciclado e fibras de sisal. As fibras utilizadas foram separadas conforme sua granulometria e foi utilizada a concentração de 5% de fibra para todas as variações granulométricas. Os materiais processados por extrusão foram caracterizados quanto ao índice de fluidez (MFI, ASTM D1238-13), densidade (ASTM D792-13), dureza (ASTM D2240–10), ensaio de temperatura de amolecimento (VICAT), difratometria de raios X (XRD), resistência ao impacto e microscopia eletrônica de varredura (MEV). Os resultados mostraram um aumento no MFI e na dureza e uma redução na densidade. Os valores obtidos no ensaio de temperatura de amolecimento VICAT acompanharam, tendencialmente, os resultados obtidos no ensaio de dureza. A incorporação da fibra, independentemente do tamanho, causou interferência na cristalinidade da matriz polimérica e promoveu uma mudança na superfície dos compósitos. A resistência ao impacto diminuiu com a inserção da fibra de sisal independente da granulometria da fibra.

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Compósitos à base de Polipropileno/Bagaço de cana-de-açúcar: influência do processamento / Polypropylene/Sugarcane Bagasse Composites: influence of processing

Lima¹,

Santos²,

Bastos³

et al. 2021

BJDV

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A Biodegradable Composite of Poly (3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) with Short Cellulose Fiber for Packaging

et al. 2023

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The problem of improper disposal of polymeric waste is increasingly in present. Thus, the use of biodegradable polymers is a good alternative, especially for packaging. Compostable and biodegradable polymers such as PHBV can be completely degraded, making them ideal. But the short processability window and fluid instability is an important drawback to the wider application of this polymer in pure form. Production of composite materials has been indicated as a possibility for using this polymer. One source of filler is cellulose, because besides being widely available from agroindustrial waste. In this context, the present work reports the formulation of rigid packaging with PHBV and cellulose waste. An analytical mill was used to promote the dispersion of cellulose fibers. In general, the cellulose fibers increased the Vicat softening point of the polymeric matrix. There were more crystalline structures, according to DSC, and a decrease in impact strength, probably due to increased crystallinity and agglomerate formation. The microscopic analysis indicated greater surface roughness of the composite due to the increase of fibers, resulting in increased contact angle.

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Produção e caracterização de compósitos obtidos a partir da incorporação de casca de arroz em blendas de polipropileno virgem e reciclado / Production and characterization of composites obtained from the incorporation of rice husk in virgin and recycled polypropylene bends

Mateus¹,

Santos²,

Pereira³

2021

BJDV

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Neste trabalho compósitos foram preparados a partir de uma blenda constituída de Polipropileno virgem e reciclado, e casca de arroz (CA). Inicialmente foram preparadas 3 blendas (B8020, B5050 e B2080) utilizando extrusora dupla -rosca. Posteriormente, foram preparados 2 compósitos a partir da blenda B5050 contendo 5 e 10% de fibras. Os corpos-de-prova foram obtidos por compressão e caracterizados por densidade (ASTM D792), dureza (ASTM D2240) e índice de fluidez (MFI, ASTM D1238). Os resultados obtidos mostraram que o aumento do teor de casca de arroz promoveu uma redução nos valores de densidade, dureza e índice de fluidez dos compósitos.

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