Building Materials and Products
DOI: https://doi.org/10.24866/2227-6858/2021-3-11
Potapov V., Gordeeva E., Shitikov E., Cerdan A.
VADIM POTAPOV, Doctor of Engineering Science, Professor, Chief Researcher (Corresponding Author),
ResearcherID: AAO-4320-2020, ORCID: 0000-0001-6959-3324, vadim_p@inbox.ru
Research Geotechnological Center of the Far Eastern Branch of the Russian Academy of Sciences
Petropavlovsk-Kamchatsky, Russia
ELENA GORDEEVA, Engineer, gordeevaev@mail.ru
Central Research Institute of Transport Construction
Moscow, Russia
EVGENY SHITIKOV, Candidate of Engineering Science , Senior Researcher, esh_45@mail.ru
ANGEL CERDAN, Doctor of Chemical Sciences, Professor, Leading Researcher of the Faculty of Chemistry, cerdan@mail.ru
Lomonosov Moscow State University
Moscow, Russia
Modification of cement materials with small doses of hydrothermal nanosilica and plasticizing additives
Abstract: Experiments were performed on modifying Portland cement materials with plasticizing additives in combination with hydrothermal silicon dioxide nanoparticles using hydrodynamic activation of mixing water. For cement stone and fine-grained concrete, when using the activation of mixing water an effective reduction of the amount of plasticizing additives introduced in the form of a mixture of formaldehyde superplasticizer and fractionated and oxidized lignosulfonate was achieved – up to 0.1% against the total weight of cement instead of 0.2–0.5% without loss of compressive and bending strength. When using hydrothermal nanoparticles of silicon dioxide and fractionated, oxidized and nanomodified lignosulfonate, it is possible to reduce the consumption of polyacrylate hyperplasticizers in 1.5–4.5 times. At the same time, the use of activated water for hydration of cement composites and fine-grained concretes turns out to be an additional factor that increases the strength of solid samples. Small concentrations of a combination of hyperplasticizers with technical lignosulfonates modified by oxidation and / or with hydrothermal silicon dioxide nanoparticles can reduce cement consumption in heavyweight concrete or increase the mechanical strength of concrete to a level corresponding to the concrete class by two units higher, without changing the initial composition of concrete, which is confirmed by tests in concrete’s production conditions.
Keywords: portland cement, plasticizer, hydrothermal nanoparticles, hydrodynamic activation of water, concrete compressive and bending strength
Contribution of the authors: the authors contributed equally to this article.
The authors declare no conflicts of interests.
See the reference in English at the end of the article