Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density

A numerical investigation is conducted on a rotating engine blade subjected to a bird strike impact. The bird strike is numerically modelled as a cylindrical gelatine with hemispherical ends to simulate impact on a rotating engine blade. Numerical modelling of a rotating engine blade has shown that...

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Main Authors: Shahimi, Sharis-Shazzali, Abdullah, Nur Azam, Hrairi, Meftah, Topa, Ameen, Ismail, Ahmad Faris
Format: Article
Language:English
English
Published: IIUM Press 2022
Subjects:
Online Access:http://irep.iium.edu.my/96170/13/96170_%20Numerical%20modelling%20of%20bird%20strike%20on%20a%20rotating%20engine.pdf
http://irep.iium.edu.my/96170/19/96170_Numerical%20modelling%20of%20bird%20strike_SCOPUS.pdf
http://irep.iium.edu.my/96170/
https://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/2146/849
https://doi.org/10.31436/iiumej.v23i1
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
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spelling my.iium.irep.961702022-03-08T06:35:28Z http://irep.iium.edu.my/96170/ Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density Shahimi, Sharis-Shazzali Abdullah, Nur Azam Hrairi, Meftah Topa, Ameen Ismail, Ahmad Faris TA165 Engineering instruments, meters, etc. Industrial instrumentation TA170 Environmental engineering. Sustainable engineering TA349 Mechanics of engineering. Applied mechanics TJ170 Mechanics applied to machinery. Dynamics TJ227 Machine design and drawing A numerical investigation is conducted on a rotating engine blade subjected to a bird strike impact. The bird strike is numerically modelled as a cylindrical gelatine with hemispherical ends to simulate impact on a rotating engine blade. Numerical modelling of a rotating engine blade has shown that bird strikes can severely damage an engine blade, especially as the engine blade rotates, as the rotation causes initial stresses on the root of the engine blade. This paper presents a numerical modelling of the engine blades subjected to bird strike with porosity implemented on the engine blades to investigate further damage assessment due to this porosity effect. As porosity influences the decibel levels on a propeller blade or engine blade, the damage due to bird strikes can investigate the compromise this effect has on the structural integrity of the engine blades. This paper utilizes a bird strike simulation through an LS-Dyna Pre-post software. The numerical constitutive relations are keyed into the keyword manager where the bird’s SPH density, a 10 ms simulation time, and bird velocity of 100 m/s are all set. The blade rotates counter-clockwise at 200 rad/s with a tetrahedron mesh. The porous regions or voids along the blade are featured as 5 mm diameter voids, each spaced 5 mm apart. The bird is modelled as an Elastic-Plastic-Hydrodynamic material model to analyze the bird’s fluid behavior through a polynomial equation of state. To simulate the fluid structure interaction, the blade is modelled with Johnson-Cook Material model parameters of aluminium where the damage of the impact can be observed. The observations presented are compared to previous study of a bird strike impact on non-porous engine blades. IIUM Press 2022-01-04 Article PeerReviewed application/pdf en http://irep.iium.edu.my/96170/13/96170_%20Numerical%20modelling%20of%20bird%20strike%20on%20a%20rotating%20engine.pdf application/pdf en http://irep.iium.edu.my/96170/19/96170_Numerical%20modelling%20of%20bird%20strike_SCOPUS.pdf Shahimi, Sharis-Shazzali and Abdullah, Nur Azam and Hrairi, Meftah and Topa, Ameen and Ismail, Ahmad Faris (2022) Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density. IIUM Engineering Journal, 23 (1). pp. 412-423. ISSN 1511-788X E-ISSN 2289-7860 https://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/2146/849 https://doi.org/10.31436/iiumej.v23i1
institution Universiti Islam Antarabangsa Malaysia
building IIUM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider International Islamic University Malaysia
content_source IIUM Repository (IREP)
url_provider http://irep.iium.edu.my/
language English
English
topic TA165 Engineering instruments, meters, etc. Industrial instrumentation
TA170 Environmental engineering. Sustainable engineering
TA349 Mechanics of engineering. Applied mechanics
TJ170 Mechanics applied to machinery. Dynamics
TJ227 Machine design and drawing
spellingShingle TA165 Engineering instruments, meters, etc. Industrial instrumentation
TA170 Environmental engineering. Sustainable engineering
TA349 Mechanics of engineering. Applied mechanics
TJ170 Mechanics applied to machinery. Dynamics
TJ227 Machine design and drawing
Shahimi, Sharis-Shazzali
Abdullah, Nur Azam
Hrairi, Meftah
Topa, Ameen
Ismail, Ahmad Faris
Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density
description A numerical investigation is conducted on a rotating engine blade subjected to a bird strike impact. The bird strike is numerically modelled as a cylindrical gelatine with hemispherical ends to simulate impact on a rotating engine blade. Numerical modelling of a rotating engine blade has shown that bird strikes can severely damage an engine blade, especially as the engine blade rotates, as the rotation causes initial stresses on the root of the engine blade. This paper presents a numerical modelling of the engine blades subjected to bird strike with porosity implemented on the engine blades to investigate further damage assessment due to this porosity effect. As porosity influences the decibel levels on a propeller blade or engine blade, the damage due to bird strikes can investigate the compromise this effect has on the structural integrity of the engine blades. This paper utilizes a bird strike simulation through an LS-Dyna Pre-post software. The numerical constitutive relations are keyed into the keyword manager where the bird’s SPH density, a 10 ms simulation time, and bird velocity of 100 m/s are all set. The blade rotates counter-clockwise at 200 rad/s with a tetrahedron mesh. The porous regions or voids along the blade are featured as 5 mm diameter voids, each spaced 5 mm apart. The bird is modelled as an Elastic-Plastic-Hydrodynamic material model to analyze the bird’s fluid behavior through a polynomial equation of state. To simulate the fluid structure interaction, the blade is modelled with Johnson-Cook Material model parameters of aluminium where the damage of the impact can be observed. The observations presented are compared to previous study of a bird strike impact on non-porous engine blades.
format Article
author Shahimi, Sharis-Shazzali
Abdullah, Nur Azam
Hrairi, Meftah
Topa, Ameen
Ismail, Ahmad Faris
author_facet Shahimi, Sharis-Shazzali
Abdullah, Nur Azam
Hrairi, Meftah
Topa, Ameen
Ismail, Ahmad Faris
author_sort Shahimi, Sharis-Shazzali
title Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density
title_short Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density
title_full Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density
title_fullStr Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density
title_full_unstemmed Numerical modelling of bird strike on a rotating engine blades based on variations of porosity density
title_sort numerical modelling of bird strike on a rotating engine blades based on variations of porosity density
publisher IIUM Press
publishDate 2022
url http://irep.iium.edu.my/96170/13/96170_%20Numerical%20modelling%20of%20bird%20strike%20on%20a%20rotating%20engine.pdf
http://irep.iium.edu.my/96170/19/96170_Numerical%20modelling%20of%20bird%20strike_SCOPUS.pdf
http://irep.iium.edu.my/96170/
https://journals.iium.edu.my/ejournal/index.php/iiumej/article/view/2146/849
https://doi.org/10.31436/iiumej.v23i1
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