A Circular Economy Virtuous Example—Use of a Stabilized Waste Material Instead of Calcite to Produce Sustainable Composites

This work reports and analyzes the mechanical properties of some composites obtained using stabilized waste with epoxy resins E-227. For comparison, correspondent composite samples were realized using calcite as a filler. The recovered stabilized waste was obtained by means of a new method to stabil...

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Published inApplied sciences Vol. 10; no. 3; p. 754
Main Authors Assi, Ahmad, Bilo, Fabjola, Zanoletti, Alessandra, Ducoli, Serena, Ramorino, Giorgio, Gobetti, Anna, Zacco, Annalisa, Federici, Stefania, Depero, Laura E., Bontempi, Elza
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.02.2020
Subjects
Bottom ash
By products
Calcite
Calcium carbonate
Circular economy
Coal
Composite materials
Economics
Epoxy resins
filler
Fillers
Flue gas
Fly ash
Gases
Incineration
Industrial plant emissions
Mechanical properties
Modulus of rupture in bending
Municipal solid waste
municipal solid waste incineration
Municipal waste management
Natural resources
new composites
Pollutants
Power plants
Solid waste management
Stabilization
Technology assessment
three point bending test
Waste disposal
Waste materials
Waste treatment
Italy
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Summary:This work reports and analyzes the mechanical properties of some composites obtained using stabilized waste with epoxy resins E-227. For comparison, correspondent composite samples were realized using calcite as a filler. The recovered stabilized waste was obtained by means of a new method to stabilize municipal solid waste incineration (MSWI) fly ash (FA), based on the use of bottom ash (BA). The aim of this paper is to show that the stabilization process, which can be considered a zero—waste treatment, produces inert materials, that can be reused as a filler. The production of new filler was made on a pilot plant, designed to verify the transferability of the proposed stabilization technology. Mechanical analysis revealed that flexural modulus raises by increasing the filler content around 30% wt, independently of filler type, stabilized sample or calcium carbonate. Mechanical properties are lower in the samples with the high amount of filler due to the crowding effect. The morphology of composite materials showed a non-homogeneous dispersion of particles in stabilized sample filler, characterized by large particle agglomerates. Finally, according to the ESCAPE simplified method, the obtained composites result more sustainable in comparison with the corresponding ones produced by using natural resources (like calcite). These findings open new possibilities for the reuse of the stabilized material, in frame of circular economy principles, with environmental and economic advantages.
ISSN:2076-3417
2076-3417
DOI:10.3390/app10030754