Cleaner Production of Cementitious Materials Containing Bioaggregates Based on Mussel Shells: A Review

de Freitas, José Júlio Garcia; Vieira, Carlos Maurício Fontes; Natalli, Juliana Fadini; Lavander, Henrique David; de Azevedo, Afonso Rangel Garcez; Marvila, Markssuel Teixeira

doi:10.3390/su16135577

Sustainability

2024

DOI: 10.3390/su16135577

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Cleaner Production of Cementitious Materials Containing Bioaggregates Based on Mussel Shells: A Review

José Júlio Garcia de Freitas,

Carlos Maurício Fontes Vieira,

Juliana Fadini Natalli

et al.

Abstract: This text provides a bibliographic review on bioaggregates obtained from mussel shells and similar materials, evaluating the main properties altered with the use of this type of recycled aggregate in cementitious materials. The bibliographic analysis highlights the main problems and challenges of using bioaggregates related to the presence of organic impurities and chlorides and due to the lamellar and flat shape of the grains, which impair adhesion in the transition zone. The advantages of mussel shell bioagg… Show more

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Micronized Shell-Bioaggregates as Mechanical Reinforcement in Organic Coatings

Rodríguez-Gómez,

Calovi,

Rossi

2024

Materials

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Shells are primarily composed of calcite and aragonite, making the inclusion of micronized shells as bio-based fillers in organic coatings a potential means to enhance the mechanical properties of the layers. A water-based coating was reinforced with 5 wt.% Acanthocardia tuberculata powder, 5 wt.% Mytilus galloprovincialis powder, and 5 wt.% of an LDPE/ceramic/nanoceramic composite. An improvement in abrasion resistance was achieved using micronized seashells, as demonstrated by the Taber test (evaluating both weight loss and thickness reduction). Additionally, Buchholz hardness improved with powders derived from Mytilus galloprovincialis. No significant differences were observed among the samples in terms of color and gloss after 200 h of UV-B exposure. However, the delamination length from the scratch after 168 h of exposure in a salt spray chamber indicated that the addition of particles to the polymeric matrix resulted in premature degradation, likely due to the formation of preferential paths for water penetration from the scratch. This hypothesis was supported by electrochemical impedance spectroscopy measurements, which revealed a decrease in total impedance at 0.01 Hz shortly after immersion in a 3.5% NaCl solution. In conclusion, the particle size and shape of the micronized shells improved abrasion resistance without altering color and gloss but led to a decrease in the coating’s isolation properties.

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Micronized Shell-Bioaggregates as Mechanical Reinforcement in Organic Coatings

Rodríguez-Gómez,

Calovi,

Rossi

2024

Materials

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show abstract

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Cleaner Production of Cementitious Materials Containing Bioaggregates Based on Mussel Shells: A Review

Cited by 1 publication

References 96 publications

Micronized Shell-Bioaggregates as Mechanical Reinforcement in Organic Coatings

Micronized Shell-Bioaggregates as Mechanical Reinforcement in Organic Coatings

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