Choice and optimization of ratio of components to develop fast-mounted thermostable heat-insulating constructions


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Fast-mounted heat-insulating constructions based on foamed synthetic rubbers, polyethylene, and polyurethane are characterized by a thermostability up to 150°C and emit toxic substances when burnt. However, there is a need for heat insulation of surfaces with higher coolant temperatures, such as pipelines, equipment of nuclear and thermal power plants, and heating systems with remote heat sources. One of the most promising types of heat insulation materials for creation of fast-mounted heat insulation constructions is the syntactic foams or thin-film multilayer heat-insulating coatings (TFMHIC), which are created using hollow microspheres and various types of binders. The formation of TFMHIC on the heat-insulating surface is carried out mostly by means of spraying methods that have well proven themselves at coating on flat and cylindrical surfaces of large area, but they turned out ineffective for cylindrical surfaces with a diameter of 300 mm and less, since they are characterized by a large degree of carryover of composite material. This article analyzed the binders and microspheres promising to create the fast-mounted heat-insulating constructions based on TFMHIC with high thermostability. Based on the analysis, a conclusion is drawn that organicsilicon binding and glass microspheres are promising for use in the heat-insulating constructions with thermostability up to 300°C. The results of experimental research are given that point to the possibility of predicting the optimal composition of heat-insulating material characterized by a high degree of filling with microspheres with maintaining the mechanical strength, by means of performing the analysis of rheological characteristics of nonpolymerized liquid compositions of heat-insulation material. The index of tensile strength in bending was the criterion for evaluating the mechanical strength of heat-insulating material. The critical volume concentrations of filling the heat-insulating material with glass microspheres, whose excess leads to a reduction in its strength characteristics, are determined.

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N. Loginova

Moscow Power Engineering Institute (MPEI, National Research University)

编辑信件的主要联系方式.
Email: natalia.log@yandex.ru
俄罗斯联邦, ul. Krasnokazarmennaya 14, Moscow, 111250

S. Grigor’ev

Moscow Power Engineering Institute (MPEI, National Research University)

Email: natalia.log@yandex.ru
俄罗斯联邦, ul. Krasnokazarmennaya 14, Moscow, 111250

E. Lapin

Moscow Power Engineering Institute (MPEI, National Research University)

Email: natalia.log@yandex.ru
俄罗斯联邦, ul. Krasnokazarmennaya 14, Moscow, 111250

S. Pogorelov

Moscow Power Engineering Institute (MPEI, National Research University)

Email: natalia.log@yandex.ru
俄罗斯联邦, ul. Krasnokazarmennaya 14, Moscow, 111250

A. Ryzhenkov

Moscow Power Engineering Institute (MPEI, National Research University)

Email: natalia.log@yandex.ru
俄罗斯联邦, ul. Krasnokazarmennaya 14, Moscow, 111250

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