Cerâmica (Jul 2022)

Manufacturing and characterization of sustainable macroporous glass foams

  • S. K. F. da Silva,
  • F. P. da Costa,
  • J. V. Fernandes,
  • J. B. da C. A. de Melo,
  • R. R. Menezes,
  • G. de A. Neves,
  • A. M. Rodrigues

DOI
https://doi.org/10.1590/0366-69132022683863271
Journal volume & issue
Vol. 68, no. 386
pp. 242 – 249

Abstract

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Abstract This work produced glass foams from soda-lime glass bottles, bentonite, and alumina by the replica method. Compositions with different contents of bentonite (5, 10, 15, and 20 wt%) were prepared and heat-treated at 800 °C. In the alumina-added compositions, 50 wt% of the bentonite was replaced by the alumina. The influences of the content of bentonite (binder) and alumina addition were evaluated through the physical-mechanical properties. The results showed that the alumina did not promote a significant effect on physical and mechanical properties in most glass foams; the exception was the sample with 20 wt% bentonite+alumina, which presented better physical properties (lower linear shrinkage and density and greater porosity) when compared to its equivalent sample (without alumina). Foams with 5% of bentonite or bentonite+alumina showed higher linear shrinkage indexes and high densification. Samples with 15% of bentonite or bentonite+alumina showed the best combination of properties: higher porosity (79.2% and 80.2%), water absorption (58.8% and 59.7%), lower shrinkage index (25.5% and 29.4%), and good flexural strength (0.69 and 0.45 MPa).

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