An influence of shroud design parameters on the static stresses of blade assemblies

An influence of shroud design parameters on the static stresses of blade assemblies

In this study, the structural analysis of the blade assemblies was carried out using the finite element method to determine the influence of design parameters of shroud couplings on the static stresses of turbine rotor blades with zigzag and slant shroud couplings. An angle of inclination of the shr...

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Main Authors: Savchenko Kyrylo, Zinkovskii Anatoliy, Rzadkowski Romuald, Przysowa Radoslaw, Kruts Vadym
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:MATEC Web of Conferences
Online Access:https://www.matec-conferences.org/articles/matecconf/pdf/2019/53/matecconf_easn2019_03002.pdf
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spelling doaj-a6fece3c52234f19bda5e950858fcc752021-04-02T12:26:46ZengEDP SciencesMATEC Web of Conferences2261-236X2019-01-013040300210.1051/matecconf/201930403002matecconf_easn2019_03002An influence of shroud design parameters on the static stresses of blade assembliesSavchenko KyryloZinkovskii AnatoliyRzadkowski RomualdPrzysowa RadoslawKruts VadymIn this study, the structural analysis of the blade assemblies was carried out using the finite element method to determine the influence of design parameters of shroud couplings on the static stresses of turbine rotor blades with zigzag and slant shroud couplings. An angle of inclination of the shroud contact surfaces with respect to the rotor rotation axis was selected as the design parameter. Based on the calculation results, it has been found that irrespective of the type of the shroud coupling, the values of the contact pressure and the stresses in the shroud increase with the angle of inclination of the contact surfaces. Also, for the slant shroud coupling, the stresses increase in the blade airfoil portion with the increase of angle of inclination of the contact surfaces, while for the zigzag shroud coupling the contact stresses decrease with the increase of this angle. It was concluded that the zigzag shroud coupling causes the increase in static stresses when compared to the slant one.https://www.matec-conferences.org/articles/matecconf/pdf/2019/53/matecconf_easn2019_03002.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Savchenko Kyrylo
Zinkovskii Anatoliy
Rzadkowski Romuald
Przysowa Radoslaw
Kruts Vadym
spellingShingle Savchenko Kyrylo
Zinkovskii Anatoliy
Rzadkowski Romuald
Przysowa Radoslaw
Kruts Vadym
An influence of shroud design parameters on the static stresses of blade assemblies
MATEC Web of Conferences
author_facet Savchenko Kyrylo
Zinkovskii Anatoliy
Rzadkowski Romuald
Przysowa Radoslaw
Kruts Vadym
author_sort Savchenko Kyrylo
title An influence of shroud design parameters on the static stresses of blade assemblies
title_short An influence of shroud design parameters on the static stresses of blade assemblies
title_full An influence of shroud design parameters on the static stresses of blade assemblies
title_fullStr An influence of shroud design parameters on the static stresses of blade assemblies
title_full_unstemmed An influence of shroud design parameters on the static stresses of blade assemblies
title_sort influence of shroud design parameters on the static stresses of blade assemblies
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2019-01-01
description In this study, the structural analysis of the blade assemblies was carried out using the finite element method to determine the influence of design parameters of shroud couplings on the static stresses of turbine rotor blades with zigzag and slant shroud couplings. An angle of inclination of the shroud contact surfaces with respect to the rotor rotation axis was selected as the design parameter. Based on the calculation results, it has been found that irrespective of the type of the shroud coupling, the values of the contact pressure and the stresses in the shroud increase with the angle of inclination of the contact surfaces. Also, for the slant shroud coupling, the stresses increase in the blade airfoil portion with the increase of angle of inclination of the contact surfaces, while for the zigzag shroud coupling the contact stresses decrease with the increase of this angle. It was concluded that the zigzag shroud coupling causes the increase in static stresses when compared to the slant one.
url https://www.matec-conferences.org/articles/matecconf/pdf/2019/53/matecconf_easn2019_03002.pdf
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