Adhesion of mold spores to polymer materials during their deposition in the air

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The features of the adhesive interaction of spores of various types of mold fungi deposited in a stationary air environment with polymeric materials are investigated. It is shown that regardless of the type of material, its angle of inclination and the type of fungus, all spores that have reached the polymer surface remain on it. The location of the sample relative to the source of spore propagation and the mechanism of their supply to the surface determine the number of spores retained on the material, characterizing the microbiological component of the air environment (the content and specific consumption of fungal spores in it). An algorithm for estimating this characteristic is proposed. It is advisable to take the research results into account when developing methods for testing the resistance of polymer materials to infection and damage by biodegradable fungi.

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作者简介

I. Kalinina

Federal state budgetary institution of science Federal research center of chemical physics N. N. Semenova Russian Academy of Sciences (FIC CHF N.N. Semenov RAS)

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Email: i_kalinina1950@mail.ru
俄罗斯联邦, Moscow

V. Ivanov

Federal state budgetary institution of science Federal research center of chemical physics N. N. Semenova Russian Academy of Sciences (FIC CHF N.N. Semenov RAS)

Email: i_kalinina1950@mail.ru
俄罗斯联邦, Moscow

S. Semenov

Federal state budgetary institution of science Federal research center of chemical physics N. N. Semenova Russian Academy of Sciences (FIC CHF N.N. Semenov RAS)

Email: i_kalinina1950@mail.ru
俄罗斯联邦, Moscow

V. Kazarin

Federal state budgetary institution of science Federal research center of chemical physics N. N. Semenova Russian Academy of Sciences (FIC CHF N.N. Semenov RAS)

Email: i_kalinina1950@mail.ru
俄罗斯联邦, Moscow

O. Zhdanova

Federal state budgetary institution of science Federal research center of chemical physics N. N. Semenova Russian Academy of Sciences (FIC CHF N.N. Semenov RAS)

Email: i_kalinina1950@mail.ru
俄罗斯联邦, Moscow

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2. Fig. 1. Dependences of the number of adhered spores (a, spores/cm2) and the number of adhesion (γ) of microscopic fungi Aspergillus niger, Penicillium chrisogenum, and Aspergillus terreus on various polymer materials: polyethylene, cellophane ,,,,), varnish fabric ( , , ) from the specific spore consumption (p, spores/cm2) at the angle of inclination of the samples to the direction of spore deposition (α = 20° (a) and 60° (b).

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