1 research outputs found
Key-Parameters in Chemical Stabilization of Soils with Multiwall Carbon Nanotubes
Chemical stabilization is one of the most successful techniques that has been applied to
improve the geomechanical behavior of soil. Several additives have been studied to be a sustainable
alternative to traditional additives (Portland cement and lime) normally associated with high cost and
carbon footprint. Nanomaterials are one of the most recent additives proposed. This work is focused
on one type of nanomaterial, multiwall carbon nanotubes (MWCNTs) with unique characteristics,
applied to chemical stabilization of soils and aiming to identify the key-parameters affecting the
stabilization improvement. It was found that a surfactant should be added in order to oppose the
natural tendency of MWCNTs to aggregate with the consequent loss of benefits. The surfactant choice
is not so dependent on the charge of the surfactant but rather on the balance between the concentration
and the hydrodynamic diameter/molecular weight due to their impact on the geomechanical
compression behavior. As time evolves from 7 to 28 days, there is a decrease in the geomechanical
benefits associated with the presence of MWCNTs explained by the development of the cementitious
matrix. MWCNTs applied in a proper concentration and enriched with a specific surfactant type may
be a short-time valid alternative to the partial replacement of traditional additives