The additive technology for obtaining thermal storages based on nanomodified materials

The approaches for the implementation of an additive technology for obtaining heat accumulators are considered. The implementation of the provided technology can be realized on the standard 3D printers, which are aimed to obtain plastic materials. However, the software of the printers has to include...

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Main Authors: Shchegolkov Alexander, Borovskikh Pavel, Shirshova Larisa
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201712901050
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author Shchegolkov Alexander
Borovskikh Pavel
Shirshova Larisa
author_facet Shchegolkov Alexander
Borovskikh Pavel
Shirshova Larisa
author_sort Shchegolkov Alexander
collection DOAJ
description The approaches for the implementation of an additive technology for obtaining heat accumulators are considered. The implementation of the provided technology can be realized on the standard 3D printers, which are aimed to obtain plastic materials. However, the software of the printers has to include adjusting analytical expressions, which take into account thermophysical properties of the heat-retaining materials. The analytical expressions have been derived by solving a mathematical model. The mathematical model contains the main data on thermophysical and mechanical and physical properties of the nanomodified material. These properties of the nanomodified material are defined during the experimental studies.
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spelling doaj.art-4d65252c20e44d3b8740e8c5adb024c92022-12-21T18:32:19ZengEDP SciencesMATEC Web of Conferences2261-236X2017-01-011290105010.1051/matecconf/201712901050matecconf_icmtmte2017_01050The additive technology for obtaining thermal storages based on nanomodified materialsShchegolkov AlexanderBorovskikh PavelShirshova LarisaThe approaches for the implementation of an additive technology for obtaining heat accumulators are considered. The implementation of the provided technology can be realized on the standard 3D printers, which are aimed to obtain plastic materials. However, the software of the printers has to include adjusting analytical expressions, which take into account thermophysical properties of the heat-retaining materials. The analytical expressions have been derived by solving a mathematical model. The mathematical model contains the main data on thermophysical and mechanical and physical properties of the nanomodified material. These properties of the nanomodified material are defined during the experimental studies.https://doi.org/10.1051/matecconf/201712901050
spellingShingle Shchegolkov Alexander
Borovskikh Pavel
Shirshova Larisa
The additive technology for obtaining thermal storages based on nanomodified materials
MATEC Web of Conferences
title The additive technology for obtaining thermal storages based on nanomodified materials
title_full The additive technology for obtaining thermal storages based on nanomodified materials
title_fullStr The additive technology for obtaining thermal storages based on nanomodified materials
title_full_unstemmed The additive technology for obtaining thermal storages based on nanomodified materials
title_short The additive technology for obtaining thermal storages based on nanomodified materials
title_sort additive technology for obtaining thermal storages based on nanomodified materials
url https://doi.org/10.1051/matecconf/201712901050
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AT borovskikhpavel additivetechnologyforobtainingthermalstoragesbasedonnanomodifiedmaterials
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