Numerical investigation on the damage of whirling engine blades subjected to bird strike impact

Numerical investigation on the damage of whirling engine blades subjected to bird strike impact

This research renders a numerical investigation of whirling engine blades subjected to bird strike impact. The numerical modelling of the bird strike investigation was conducted employing SPH. The bird model was established as a gelatine material and is the geometry of the bird was anticipated. As m...

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Bibliographic Details
Main Authors: Shahimi, Sharis-Shazzali, Abdullah, Nur Azam, Hrairi, Meftah, Ahmad, Meor iqram Meor
Format: Article
Language:English
English
Published: The Aeronautical and Astronautical Society of the Republic of China 2021
Subjects:
TJ163.13 Power resources
TJ170 Mechanics applied to machinery. Dynamics
TJ181 Mechanical movements
TJ241 Machine construction (General)
TJ266 Turbines. Turbomachines (General)
TJ751 Miscellaneous motors and engines. Including gas, gasoline, diesel
TL500 Aeronautics
Online Access:http://irep.iium.edu.my/88319/7/88319_Numerical%20Investigation%20on%20the%20Damage%20of%20Whirling.pdf
http://irep.iium.edu.my/88319/13/88319_Numerical%20Investigation%20on%20the%20Damage_Scopus.pdf
http://irep.iium.edu.my/88319/
https://www.airitilibrary.com/Publication/alDetailedMesh?DocID=P20140627004-202106-202102080001-202102080001-193-199
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Institution: Universiti Islam Antarabangsa Malaysia
Language: English
English
Description
Summary:This research renders a numerical investigation of whirling engine blades subjected to bird strike impact. The numerical modelling of the bird strike investigation was conducted employing SPH. The bird model was established as a gelatine material and is the geometry of the bird was anticipated. As most bird strikes transpire during take-off and landing, the bird was modelled with a set velocity of 120m/s and is impacted on the engine blades, where the damage of the blades is then assessed. The engine blades were modelled as a tetrahedron mesh for accuracy in LS-DYNA software and are rotating at 200 rad/s counter-clockwise. The engine blade material is modelled with Johnson-Cook failure constants. The results are manifested as effective stresses, which shows the structural damage of the engine blades struck by the bird, which induces deflection that significantly damages the blades. Further assessments of bird velocity and engine blade rotation variations are also presented.

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