Sustainable Composites: Analysis of Filler–Rubber Interaction in Natural Rubber–Styrene–Butadiene Rubber/Polyurethane Composites Using the Lorenz–Park Method and Scanning Electron Microscopy-Reference-Cited by-同舟云学术

Sustainable Composites: Analysis of Filler–Rubber Interaction in Natural Rubber–Styrene–Butadiene Rubber/Polyurethane Composites Using the Lorenz–Park Method and Scanning Electron Microscopy

Published:2024-02-08 Issue:4 Volume:16 Page:471
ISSN:2073-4360
Container-title:Polymers
language:en
Short-container-title:Polymers

Author:

De Carvalho Arthur Pimentel¹,Dos Santos Harison Franca¹,Ribeiro Gabriel Deltrejo¹,Hiranobe Carlos Toshiyuki¹^ORCID,Goveia Danielle²^ORCID,Gennaro Elmer Mateus³,Paim Leonardo Lataro¹^ORCID,Dos Santos Renivaldo José¹

Affiliation:

1. Department of Engineering, Faculty of Engineering and Science, Sao Paulo State University (UNESP), Rosana 19274-000, SP, Brazil

2. Department of Science and Technology, Institute of Sciences and Engineering, Sao Paulo State University (UNESP), Itapeva 18409-010, SP, Brazil

3. Department of Aeronautical Engineering, Engineering School, Sao Paulo State University (UNESP), São João da Boa Vista 13876-750, SP, Brazil

Abstract

This study examined micronized polyurethane residues as a reinforcing filler in elastomeric composites made from natural rubber (NR) and styrene–butadiene rubber (SBR). Due to growing environmental concerns, this research aimed to find sustainable alternatives to synthetic materials. The results indicated that adding micronized polyurethane improved the mechanical properties of the composites, reinforcing the polymer matrix and increasing the cross-link density as a barrier against solvents. The composites met the requirements for industrial applications, though; at 40 phr of polyurethane filler, material deformation was reduced, indicating saturation. FTIR analysis confirmed the homogeneity of the materials without chemical reactions, while electron microscopy revealed an increase in the number of particles and irregularities with the filler. The composite with 10 phr showed a lower volume loss in abrasion resistance, meeting the standards for soles. The composite with 30 phr of polyurethane achieved the best results without the filler’s saturation and met the footwear industry’s requirements. The results show the potential for sustainable practices in industry using this elastomeric blend.

Funder

São Paulo Research Foundation

Publisher

MDPI AG

Link

https://www.mdpi.com/2073-4360/16/4/471/pdf

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