THE EFFECT OF TUNGSTEN CARBIDE NANOPOWDER AGGLOMERATES ON THE PROPERTIES OF CEMENT MATERIALS-Reference-Cited by-同舟云学术

THE EFFECT OF TUNGSTEN CARBIDE NANOPOWDER AGGLOMERATES ON THE PROPERTIES OF CEMENT MATERIALS

Published:2021-07-10 Issue:7 Volume:6 Page:8-16
ISSN:2071-7318
Container-title:Bulletin of Belgorod State Technological University named after. V. G. Shukhov
language:en
Short-container-title:

Author:

Chayka T.¹

Affiliation:

1. Sevastopol'skiy gosudarstvennyy universitet

Abstract

The object of the research is cement samples modified by agglomerates of tungsten carbide nanopowders obtained from carbide waste. The paper considers the influence of tungsten carbide nanopowder on the change in the main cement characteristics (density, water demand, setting time, kinetics of strength gain, compressive strength, bending strength). The optimum additive content in cement materials is 3%. This parameter is estimated by the maximum growth of compressive and flexural strength at all stages of hardening. The effect of WC powder additive on the structure of the cement matrix has been shown. Due to the high dispersibility of WC nanopowder, its particles act as additional crystallization centers, fill in the micropores of the cement stone and create a denser and stronger structure. The results of studying the microstructure of the cement stone with additions of WC powder indirectly confirm the results of strength characteristics. The cement-sand samples with the modifier are found to have a denser crystallized cement-sand stone compared to the control sample (without WC powder addition). The conducted researches have shown perspectivity of application of WC nanoparticles agglomerates as modifying additives for cement materials, which can be used in production of special purpose concrete (hydraulic, radioprotective, etc.). The economic effect of the use of WC nanoadditives obtained from hard-alloy production wastes can be obtained due to a reduction in costs at the stages of construction and operation of structures, buildings, structures based on it.

Publisher

BSTU named after V.G. Shukhov

Subject

Psychiatry and Mental health,Neuropsychology and Physiological Psychology

Reference22 articles.

1. Коровкин М.О., Гринцов Д.М., Ерошкина Н.А. Рациональное применение инертных минеральных добавок в технологии бетона // Инженерный вестник Дона. 2017. №3(46). С. ivdon.ru/ru/magazine/archive/n3y2017/4361, Korovkin M.O., Grincov D.M., Eroshkina N.A. Rational use of inert mineral additives in concrete technology [Racional'noe primenenie inertnyh mineral'nyh dobavok v tekhnologii betona]. Engineering Journal of Don. 2017. No. 3 (46). ivdon.ru/ru/magazine/archive/n3y2017/4361 (rus)

2. Гуриненко H.С., Батяновский Э.И. Кинетика твердения и свойства цементного камня с ускоряющими твердение бетона добавками // Автомобильные дороги и мосты. 2014. №2(14). С. 90–98., Gurinenko H.S., Batyanovskij E.I. Hardening kinetics and properties of cement stone with additives enhancing concrete hardening [Kinetika tverdeniya i svojstva cementnogo kamnya s uskoryayushchimi tverdenie betona dobavkami]. Roads and bridges. 2014. No. 2(14). Pp. 90–98. (rus)

3. Mendes T., Hotza Dachamir, Repette Wellington. Nanoparticles in cement based materials: A review // Reviews on advanced materials science. 2015.Vol. 40. Pp. 89–96., Mendes T., Hotza Dachamir, Repette Wellington. Nanoparticles in cement based materials: A review. Reviews on advanced materials science. 2015. Vol. 40. Pp. 89–96.

4. Potapov V., Efimenko Yu., Fediuk R., Gorev D. Effect of hydrothermal nanosilica on the performances of cement concrete // Construction and Building Materials. 2021. 269 (10). 121307., Potapov V., Efimenko Yu., Fediuk R., Gorev D. Effect of hydrothermal nanosilica on the performances of cement concrete. Construction and Building Materials. 2021. Vol.269. Iss.10. 121307.

5. Chernishov E.M., Artamonova O.V., Slavcheva G.S. Nanomodification of cement-based composites in the technological life cycle // Nanotechnologies in construction. 2020. 12 (3). Pp. 130–139, Chernishov E.M., Artamonova O.V., Slavcheva G.S. Nanomodification of cement-based composites in the technological life cycle. Nanotechnologies in construction. 2020. Vol. 12 Iss.3. Pp. 130–139