Geopolymerization as Cold-Consolidation Techniques for Hazardous and Non-Hazardous Wastes

Cristina Leonelli; Elie Kamseu; Isabella Lancellotti; Luisa Barbieri

doi:10.4028/www.scientific.net/KEM.751.527

Paper Titles

Charged Iridium(III) Complexes with Varied Side Chain Length in Organic Light Emitting Diodes
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Effects of Buffer Layer Growth Temperature on Micro-Structures in the Cubic GaN Films Grown on GaAs (001) Substrates by MOVPE
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Effect of Silica Base Catalyst on Transformation of Methanol to Hydrocarbon
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Investigation of Physical, Mechanical and Thermal Properties of Building Wall Materials
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Geopolymerization as Cold-Consolidation Techniques for Hazardous and Non-Hazardous Wastes
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Influence of Portland Cement on Physical, Mechanical and Thermal Properties of Cellular Lightweight Concrete
p.532

The Study on Physical and Thermal Properties of Geopolymer Pastes
p.538

Optimum Partial Replacement of Cement by Nanosilica, Microsilica and Rice Husk Ash for Mass Production of Concrete
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Effect of Calcium Carbonate on Compressive Strength and Physical Properties of Alkali-Activated Lightweight Concrete
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 751Geopolymerization as Cold-Consolidation Techniques...

Geopolymerization as Cold-Consolidation Techniques for Hazardous and Non-Hazardous Wastes

Abstract:

Many interesting studies on the utilization of wastes produced in different human activities (urban, agricultural and industrial) have been carried out with the goals to reduce, to recycle, to reuse or to recovery: the R4 strategy. Many of these waste contains high amount of silicoaluminates, making them suitable for alkali activation to become one of the most promising binders for the future. Other type of wastes, even if hazardous, such as incinerator fly ash, electric arc furnace dust, lead smelting slag, etc. can be easily added as minor components to the geopolymer matrix for being immobilized as either cations or anions or both.

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Periodical:

Key Engineering Materials (Volume 751)

Pages:

527-531

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.751.527

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Online since:

August 2017

Authors:

Cristina Leonelli*, Elie Kamseu, Isabella Lancellotti, Luisa Barbieri

Keywords:

Cold-Setting, Geopolymer, Inertization, Leachability

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