Department of Metallurgical and Materials Engineering, Complex Fluids Laboratory, Federico Santa María Technical University, Santiago, San Joaquín 8940572, Chile
Collado Humberto
Department of Metallurgical and Materials Engineering, Complex Fluids Laboratory, Federico Santa María Technical University, Santiago, San Joaquín 8940572, Chile
Droguett Thomas
Department of Metallurgical Engineering, University of Santiago de Chile, Santiago, 9170022, Chile
Vesely Mario
JRI Ingeniería S.A., Department of Geotechnics, Santiago, Ñuñoa 7770445, Chile
Garrido Pamela
CIMS-JRI Sustainable Mining Research Center, General Manager, Santiago, La Reina 7850000, Chile
Palma Sergio
Department of Metallurgical and Materials Engineering, Complex Fluids Laboratory, Federico Santa María Technical University, Santiago, San Joaquín 8940572, Chile
Geopolymers emerge as an ecological alternative for construction materials. These consist of a mixture of aluminosilicate sources and an alkaline solution that dissolves the silicon and aluminum monomers that come from the source to generate a gel called N–A–S–H that will control the main properties of the geopolymer. The geopolymer stands out for having good resistance to compression, as well as good resistance to high temperatures and corrosive environments. They have great potential as a replacement for classical technologies such as concrete, however, require further applied research to determine their feasibility on an industrial scale.
