I. G. Lukachevskaya scite author profile

I. G. Lukachevskaya

2Publications

2Citation Statements Received

0Citation Statements Given

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Affiliations

Siberian Branch of the Russian Academy of Sciences, Institute of Physico-Technical Problems of the North named VP Larionov

Publications

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Study of Influence of Climatic Factors of North on Properties of Polymer Composite Textolites

Lukachevskaya

Лебедев

Кычкин

et al. 2021

IOP Conf. Ser.: Mater. Sci. Eng.

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Influence of a very cold climate on properties of basalt and glass textolites made by an infusion method by successively laying a reinforcing material on a mold and impregnating with a three-component epoxy binder is studied. Full-scale climatic tests at an open proving ground during 2 years led to a decrease of ultimate tensile strength by 14% and an increase of ultimate bending strength by 18% for the basalt textolite, the increase of the ultimate tensile strength by 9% and the ultimate bending strength by 22% for the glass textolite. Conducted studies of changes of surface relief showed insignificant variations of average amplitude of inhomogeneities up to 0.4 μm for the basalt textolite and up to 4 μm for the glass textolite. The conducted studies of these materials demonstrated their resistance to the climatic influences in a region of the very cold climates, which is confirmed by a high level of preservation of their strength parameters.

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Technology of polymer and composite materials

Lukachevskaya¹,

Лебедев²,

Struchkov³

2020

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The influence of climatic factors on properties of basalt and fiberglass made by the infusion method has been studied by sequential laying some reinforcing material on the mold, impregnating with a three-component epoxy binder, consisting of ED-22, Iso-MTHFA, Agidol 53, and curing at a temperature of 160±2 °С, within 4 hours. Full-scale climatic tests of basalt fiber and fiberglass in a very cold climate zone demonstrated their resistance to climatic influences, which is confirmed by a high level of preservation of their strength parameters. Exposure of basalt fiber to natural conditions led to a decrease in tensile strength by 14% and an increase in flexural strength by 18%. The values of fiberglass increased by 9% (ultimate tensile strength) and 22% (ultimate tensile strength). Porosity measurements showed that after exposure, basalt-textolite samples increased open porosity by 62%, while glass-textolite samples decreased by 39%. After climatic tests, an increase in the average range of the inhomogeneities (Ra) of the surface of the basalt-textolite up to 0.48 μm (initial — 0.70 μm, after exposure — 1.18 μm). In fiberglass, the average roughness increases by 4 times after exposure (initial — 1.03 μm, after exposure — 4.08 μm).

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