Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering

Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering

The computer simulation of the structural material is required to study the stress-strain state of the structural material of the high-pressure hull (in particular, the heat accumulator body). Laboratory experiment requires significant financial expenses, which is a significant drawback of this type...

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Main Authors: Chugunov Alexander, Shishov Dmitry, Nikonorov Aleksandr, Filatov Vladimir
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201817003034
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spelling doaj-b6153d8620bc417884baa5a6aaf8ed602021-02-02T01:02:32ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011700303410.1051/matecconf/201817003034matecconf_spbwosce2018_03034Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer EngineeringChugunov AlexanderShishov DmitryNikonorov AleksandrFilatov VladimirThe computer simulation of the structural material is required to study the stress-strain state of the structural material of the high-pressure hull (in particular, the heat accumulator body). Laboratory experiment requires significant financial expenses, which is a significant drawback of this type of study. Therefore, the authors considered finite element modeling of structural material by adapting modern software systems for calculating the considered models. A modern design solution for high-pressure hulls of heat accumulators made of non-prestressed reinforced concrete involves the usage of heavy reinforcement cement as a structural material. The proposed method allows gaining rather certain calculations avoiding time-consuming laboratory research.https://doi.org/10.1051/matecconf/201817003034
collection DOAJ
language English
format Article
sources DOAJ
author Chugunov Alexander
Shishov Dmitry
Nikonorov Aleksandr
Filatov Vladimir
spellingShingle Chugunov Alexander
Shishov Dmitry
Nikonorov Aleksandr
Filatov Vladimir
Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering
MATEC Web of Conferences
author_facet Chugunov Alexander
Shishov Dmitry
Nikonorov Aleksandr
Filatov Vladimir
author_sort Chugunov Alexander
title Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering
title_short Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering
title_full Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering
title_fullStr Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering
title_full_unstemmed Modeling of Heavy Armocement Deformation for the Conical Shape of the Heat Accumulator Body by the Methods of Computer Engineering
title_sort modeling of heavy armocement deformation for the conical shape of the heat accumulator body by the methods of computer engineering
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description The computer simulation of the structural material is required to study the stress-strain state of the structural material of the high-pressure hull (in particular, the heat accumulator body). Laboratory experiment requires significant financial expenses, which is a significant drawback of this type of study. Therefore, the authors considered finite element modeling of structural material by adapting modern software systems for calculating the considered models. A modern design solution for high-pressure hulls of heat accumulators made of non-prestressed reinforced concrete involves the usage of heavy reinforcement cement as a structural material. The proposed method allows gaining rather certain calculations avoiding time-consuming laboratory research.
url https://doi.org/10.1051/matecconf/201817003034
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AT shishovdmitry modelingofheavyarmocementdeformationfortheconicalshapeoftheheataccumulatorbodybythemethodsofcomputerengineering
AT nikonorovaleksandr modelingofheavyarmocementdeformationfortheconicalshapeoftheheataccumulatorbodybythemethodsofcomputerengineering
AT filatovvladimir modelingofheavyarmocementdeformationfortheconicalshapeoftheheataccumulatorbodybythemethodsofcomputerengineering
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