Master's Dissertation
DOI
https://doi.org/10.11606/D.85.2020.tde-07102020-133716
Document
Author
Full name
Mariana Matos Arantes
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2020
Supervisor
Committee
Moura, Esperidiana Augusta Barretos de (President)
Carvalho, Daniele Gomes
Wiebeck, Hélio
Carvalho, Daniele Gomes
Wiebeck, Hélio
Title in Portuguese
Desenvolvimento e caracterização de compósitos poliméricos à base de EVA e LDPE reciclados com fibras de coco de babaçu - uma contribuição para a sustentabilidade
Keywords in Portuguese
babaçu
EVA
LDPE
EVA
LDPE
Abstract in Portuguese
A crescente preocupação sobre problemas ambientais em união com pesquisadores, tem gerado uma nova frente de pesquisa que visa a reciclagem principalmente de polímeros e o aproveitamento de materiais originários de fontes renováveis. Este trabalho visa a incorporação da fibra proveniente do coco de babaçu em polímeros reciclados e puros, onde 75% deles são provenientes da reciclagem. As fibras do coco de babaçu foram caracterizadas, por meio dos ensaios de densidade, o teor de umidade natural e a capacidade de absorção de água. A preparação da blenda polimérica constituída por 25 % em massa de EVA reciclado, 25 % de EVA virgem e 50 % de LDPE foi realizada por meio da técnica de mistura mecânica no estado fundido, utilizando uma extrusora dupla-rosca, e a obtenção das chapas para confecção dos corpos de prova foram feitas em uma extrusora monorosca com matriz plana acoplada. Foi utilizado o agente espumante Endex BR 2650, na proporção de 2,5% em massa. As amostras foram caracterizadas por densidade aparente, DRX, TG, ensaio mecânico de resistência à tração e ensaio de flamabilidade. As curvas de raios X apresentaram os picos característicos dos materiais, não demonstrando alteração dos mesmos no momento de processamento. A termogravimetria mostrou ligeira influência da fibra e argila na temperatura inicial de degradação, bem como nos percentuais de perda de massa. No ensaio de resistência à tração a fibra e argila quando introduzidas na blenda provocaram uma redução variando de 18 % a 43 %, mas ao adicionar o agente espumante houve um acréscimo (10 % a 61 %) quando comparada com as adições de 1% e 3% de FCB, respectivamente. O ensaio de flamabilidade, a incorporação de agente espumante e argila apresentaram atraso na ignição do material, bem como maior dificuldade de propagação das chamas.
Title in English
Development and characterization of polymeric blend based on EVA and LDPE recycled with babassu coconut fibers - a contribution to sustainability
Keywords in English
babassu
EVA
LDPE
EVA
LDPE
Abstract in English
The growing concern over environmental issues in conjunction with researchers has generated a new research front that aims to study the recycling process, mainly polymers, and the use of materials from renewable sources. This work aims to incorporate the fiber from babassu coconut in recycled and pure polymers, where 75% of them come from recycling. The babassu coconut fibers were characterized by density tests, natural moisture content, and water absorption capacity. The preparation of the polymer blend consisting of 25 wt% of recycled EVA, 25 wt% of virgin EVA, and 50 wt% of LDPE was performed employing a mechanical mixing technique in the molten state by using a twin-screw extruder, and obtaining the plates for making the sample was made in a single screw extruder coupled with a flat channel. The foaming agent Endex BR 2650 was used, in the proportion of 2.5 wt%. The samples were characterized by bulk density, XRD, TG (thermogravimetry), mechanical tensile strength test and flammability test. The x-ray curves displayed the characteristic peaks of the materials, showing no change in the moment of processing. The thermogravimetry analysis showed a slight influence of fiber and clay on the initial temperature of degradation, as well as on the mass-loss rate. In the tensile strength test, the fiber and clay introduced into the blend caused a reduction ranging from 18% to 43%, but when adding the foaming agent there was an increase of 10% to 61% when compared with the additions of 1% and 3% FCB (Babassu Coconut Fiber), respectively. The incorporation of foaming agent and clay showed, in the flammability test, a delay in the ignition of the material, as well as greater difficulty for the flames to spread.
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Publishing Date
2020-10-15
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