Numerical simulation and test on damage of rotary engine blades impacted by bird

Jun Liu; Dudu Zhong; Yulong Li; Zhongbin Tang; Xiaosheng Gao; Zhixue Zhang; Fuzheng Huang

doi:10.1080/13588265.2018.1452548

Numerical simulation and test on damage of rotary engine blades impacted by bird

Jun Liu, Dudu Zhong, Yulong Li, Zhongbin Tang, Xiaosheng Gao, Zhixue Zhang, Fuzheng Huang

School of Civil Aviation

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

A coupled Smoothed Particle Hydrodynamics and finite element method is used to simulate the interaction between the bird and the rotary engine primary compressor.The corresponding tests of bird strike with engine blades were carried out under different impact boundary conditions. Then the damages of blades between the test and numerical simulation were compared and it is indicated that they are in good agreement. This suggested that the numerical model is capable of predicting the dynamic damage of engine blade impacted by bird. At last the study focused on the impact parameters that influenced the damage of the engine blades such as bird mass and velocity, impacted location and timing, and rotary speed. It is found that bird mass and the rotary speed of the engine blades have significant effect on the deformation and damage of the engine blades while the others have little effect.

Original language	English
Pages (from-to)	106-120
Number of pages	15
Journal	International Journal of Crashworthiness
Volume	24
Issue number	1
DOIs	https://doi.org/10.1080/13588265.2018.1452548
State	Published - 2 Jan 2019

Keywords

bird strike
bird strike test
Engine blade
numerical simulation
SPH

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title = "Numerical simulation and test on damage of rotary engine blades impacted by bird",

abstract = "A coupled Smoothed Particle Hydrodynamics and finite element method is used to simulate the interaction between the bird and the rotary engine primary compressor.The corresponding tests of bird strike with engine blades were carried out under different impact boundary conditions. Then the damages of blades between the test and numerical simulation were compared and it is indicated that they are in good agreement. This suggested that the numerical model is capable of predicting the dynamic damage of engine blade impacted by bird. At last the study focused on the impact parameters that influenced the damage of the engine blades such as bird mass and velocity, impacted location and timing, and rotary speed. It is found that bird mass and the rotary speed of the engine blades have significant effect on the deformation and damage of the engine blades while the others have little effect.",

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AU - Zhong, Dudu

AU - Li, Yulong

AU - Tang, Zhongbin

AU - Gao, Xiaosheng

AU - Zhang, Zhixue

AU - Huang, Fuzheng

PY - 2019/1/2

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AB - A coupled Smoothed Particle Hydrodynamics and finite element method is used to simulate the interaction between the bird and the rotary engine primary compressor.The corresponding tests of bird strike with engine blades were carried out under different impact boundary conditions. Then the damages of blades between the test and numerical simulation were compared and it is indicated that they are in good agreement. This suggested that the numerical model is capable of predicting the dynamic damage of engine blade impacted by bird. At last the study focused on the impact parameters that influenced the damage of the engine blades such as bird mass and velocity, impacted location and timing, and rotary speed. It is found that bird mass and the rotary speed of the engine blades have significant effect on the deformation and damage of the engine blades while the others have little effect.

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Numerical simulation and test on damage of rotary engine blades impacted by bird

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Keywords

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