Modified Polyethylene Foam for Critical Environments

One of the most important priorities for all countries with property beyond the Arctic Circle and territories located in permafrost areas is the development of special construction technologies and systems. The required conditions are met by insulation systems based on seamless insulation shells mad...

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Bibliographic Details
Published in:Polymers
Main Authors: K. A. Ter-Zakaryan, A. D. Zhukov, I. V. Bessonov, E. Y. Bobrova, T. A. Pshunov, K. T. Dotkulov
Format: Article in Journal/Newspaper
Language:English
Published: MDPI AG 2022
Subjects:
modified polyethylene
polyethylene waste
foamed polymers
combustibility
operational stability
visualisation
Organic chemistry
QD241-441
Arctic
permafrost
Online Access:https://doi.org/10.3390/polym14214688
https://doaj.org/article/387e48dc84394e3eab30508fd925abf5
Description
Summary:One of the most important priorities for all countries with property beyond the Arctic Circle and territories located in permafrost areas is the development of special construction technologies and systems. The required conditions are met by insulation systems based on seamless insulation shells made of polyethylene foam. The study of the strength and performance properties of polyethylene foam and its combinability was carried out according to standard methods and using the methods of experimental design and the analytical processing of the results. The change in material properties at negative temperatures was determined based on the results of climatic tests, followed by an evaluation of creep under load. The evaluation of the effectiveness of the design solutions was carried out using special computer programs. It was found that the performance characteristics of products made of polyethylene foam (rolls, mats) meet the requirements for insulation materials used at temperatures down to −60 °C. The resulting material is moderately combustible, which must be taken into account when developing recommendations for its use in insulation systems. A nomogram has been developed that makes it possible to predict the properties of a material and solve formulation problems. Insulation systems were developed, and a visualisation of the thermal fields of the insulation systems of the external walls and ceilings of a building was carried out.

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