Double-arrowhead castor-oil biobased polyurethane foam metamaterials

Environmental concerns surrounding petrochemical-based materials are constantly increasing and they are pushing the industry to find renewable sources and sustainable solutions. Recent years have also witnessed a focus on the development of multifunctional and metamaterials such as auxetic structure...

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Published in:Industrial crops and products 2024-10, Vol.218, p.118828, Article 118828
Main Authors: de Magalhães Santos, Gabriel Bernardo, Soares, Luiza Fernandes, Campuzano, Alberto Jorge Baeza, da Silva, Rodrigo José, Garcia, Carlos Thomas, Panzera, Tulio Hallak, Scarpa, Fabrizio
Format: Article
Language:English
Subjects:
Auxetic structures
Bio-based foam
Castor-oil
Metamaterials
Tensile
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container_title Industrial crops and products
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creator de Magalhães Santos, Gabriel Bernardo
Soares, Luiza Fernandes
Campuzano, Alberto Jorge Baeza
da Silva, Rodrigo José
Garcia, Carlos Thomas
Panzera, Tulio Hallak
Scarpa, Fabrizio
description Environmental concerns surrounding petrochemical-based materials are constantly increasing and they are pushing the industry to find renewable sources and sustainable solutions. Recent years have also witnessed a focus on the development of multifunctional and metamaterials such as auxetic structures. This work describes the manufacturing of castor-oil-biobased polyurethane foams and their use as platforms to make double-arrowhead auxetic (DAH) metamaterials via laser ablation. A microstructural analysis is conducted on the biobased foam, revealing a micro-cellular structure formed by rounded and closed cells. The proposed DAH structures are innovative because they possess two different micro and macro cellular scales. The effects of the geometric parameters (angles) of the macro-cells of the DAH structures on the equivalent density, elastic modulus, yield stress, ultimate stress, modulus of toughness, and Poisson ratio are investigated. Configurations with a lower unit cell α angle of 45° exhibited improved properties, including the maximum tensile performance (yield stress of 33.2 kPa, ultimate stress of 38.9 kPa, and modulus of toughness of 10.1 μJ/mm3) and the lower negative value for the Poisson ratio (-0.16), although with a higher density (70 kg/m3). In contrast, DAH structures made with a 70° α angle resulted in a reduced equivalent density of 48 kg/m3 and increased specific strength (0.61 kPa.m3/kg). In terms of specific stiffness, the 45° α DAH structures outperform the other configurations, with a specific elastic modulus close to 10 kPa.m3/kg. •A biobased polyurethane foam was successfully synthesized using castor-oil derivatives.•Bulk density, Poisson ratio, tensile modulus and strength are 75 kg/m3, 0.28, 3.72 MPa and 467 kPa, respectively.•Double-arrowhead (DAH) structures are obtained via laser ablation.•DAH structures with a lower α angle of 45° exhibited enhanced mechanical properties.•The latter achieved an equivalent density of 70 kg/m3 and a lower Poisson ratio of −0.16.
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Configurations with a lower unit cell α angle of 45° exhibited improved properties, including the maximum tensile performance (yield stress of 33.2 kPa, ultimate stress of 38.9 kPa, and modulus of toughness of 10.1 μJ/mm3) and the lower negative value for the Poisson ratio (-0.16), although with a higher density (70 kg/m3). In contrast, DAH structures made with a 70° α angle resulted in a reduced equivalent density of 48 kg/m3 and increased specific strength (0.61 kPa.m3/kg). 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ispartof Industrial crops and products, 2024-10, Vol.218, p.118828, Article 118828
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subjects Auxetic structures
Bio-based foam
Castor-oil
Metamaterials
Tensile
title Double-arrowhead castor-oil biobased polyurethane foam metamaterials
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