On the Issue of an Ash Microsphere Application as a Framework Forming Filler in Composite Materials

Atyaksheva, Alexandra; Niyazbekova, Rimma; Sarsikeyev, Yermek; Konkanov, Marat; Atyaksheva, Anastasia

doi:10.4028/www.scientific.net/kem.781.176

Cited by 1 publication

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“…However, the research presents the results of determining the strength characteristics under normal hardening, which does not determine the possibility of applying these results to technological production processes occurring under different temperature and humidity conditions. The paper [5] presents the results of research on the correlation between viscosity and humidity modulus of products based on a hollow aluminosilicate microsphere, which reflect the possibility of determining optimal conditions for creating materials based on a hollow aluminosilicate microsphere with the highest strength and rigidity.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Determination of rational parameters for heat treatment of concrete mixture based on a hollow aluminosilicate microsphere

Atyaksheva

Rozhkova

Sarsikeyev

et al. 2022

EEJET

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The research on determining rational parameters of heat treatment of a concrete mixture based on hollow aluminosilicate microspheres has defined the features of the intensifying action on the structural concrete mixture by low-pressure steam with optimum heat and mass transfer. Optimum values of temperature, humidity and speed of the medium have been identified. The obtained heat treatment parameters are subject to general regularities of structures for the formation of hydraulic bindings and are in accordance with production conditions, thus providing possibilities for their adaptation into production. The mechanisms for determining the strength of concrete stone according to the structural and thermal effectiveness of the active medium have been defined. Thanks to the strength-building mechanisms obtained, it is possible to reduce the thermal destruction capacity of the system while reducing the process heat consumption. It is confirmed that the main direction in reducing the destructive capacity is determined by the mass flow of moisture, which has the greatest heat capacity and the least thermal conductivity at the initial stages. The invention relates to periods of temperature rise and isothermal heating without impairing the mechanical properties of concrete. It is shown that the real duration excludes high-temperature destruction processes, thereby increasing the mechanical strength of concrete and reducing the overall energy consumption. Thus, there is a reason to argue that it is possible to produce strong and light concrete products under accelerated structure formation and new technologies for heat treatment of concrete based on lightweight fillers with reduced heat consumption.

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Section: Literature Review and Problem Statementmentioning

confidence: 99%