Coupled Shell-Material Point Method for Bird Strike Simulation

Bo Wu; Zhenpeng Chen; Xiong Zhang; Yan Liu; Yanping Lian

doi:10.1007/s10338-018-0001-2

Coupled Shell-Material Point Method for Bird Strike Simulation

Bo Wu, Zhenpeng Chen, Xiong Zhang^*, Yan Liu, Yanping Lian

^*Corresponding author for this work

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

7 Citations (Scopus)

Abstract

In a bird strike, the bird undergoes large deformation like flows; while most part of the structure is in small deformation, the region near the impact point may experience large deformations, even fail. This paper develops a coupled shell-material point method (CSMPM) for bird strike simulation, in which the bird is modeled by the material point method (MPM) and the aircraft structure is modeled by the Belytschko–Lin–Tsay shell element. The interaction between the bird and the structure is handled by a particle-to-surface contact algorithm. The distorted and failed shell elements will be eroded if a certain criterion is reached. The proposed CSMPM takes full advantages of both the finite element method and the MPM for bird strike simulation and is validated by several numerical examples.

Original language	English
Pages (from-to)	1-18
Number of pages	18
Journal	Acta Mechanica Solida Sinica
Volume	31
Issue number	1
DOIs	https://doi.org/10.1007/s10338-018-0001-2
Publication status	Published - 1 Feb 2018
Externally published	Yes

Keywords

Adaptive conversion
Bird strike simulation
Coupling
Material point method
Shell element

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10.1007/s10338-018-0001-2

Cite this

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title = "Coupled Shell-Material Point Method for Bird Strike Simulation",

abstract = "In a bird strike, the bird undergoes large deformation like flows; while most part of the structure is in small deformation, the region near the impact point may experience large deformations, even fail. This paper develops a coupled shell-material point method (CSMPM) for bird strike simulation, in which the bird is modeled by the material point method (MPM) and the aircraft structure is modeled by the Belytschko–Lin–Tsay shell element. The interaction between the bird and the structure is handled by a particle-to-surface contact algorithm. The distorted and failed shell elements will be eroded if a certain criterion is reached. The proposed CSMPM takes full advantages of both the finite element method and the MPM for bird strike simulation and is validated by several numerical examples.",

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AU - Wu, Bo

AU - Chen, Zhenpeng

AU - Zhang, Xiong

AU - Liu, Yan

AU - Lian, Yanping

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N2 - In a bird strike, the bird undergoes large deformation like flows; while most part of the structure is in small deformation, the region near the impact point may experience large deformations, even fail. This paper develops a coupled shell-material point method (CSMPM) for bird strike simulation, in which the bird is modeled by the material point method (MPM) and the aircraft structure is modeled by the Belytschko–Lin–Tsay shell element. The interaction between the bird and the structure is handled by a particle-to-surface contact algorithm. The distorted and failed shell elements will be eroded if a certain criterion is reached. The proposed CSMPM takes full advantages of both the finite element method and the MPM for bird strike simulation and is validated by several numerical examples.

AB - In a bird strike, the bird undergoes large deformation like flows; while most part of the structure is in small deformation, the region near the impact point may experience large deformations, even fail. This paper develops a coupled shell-material point method (CSMPM) for bird strike simulation, in which the bird is modeled by the material point method (MPM) and the aircraft structure is modeled by the Belytschko–Lin–Tsay shell element. The interaction between the bird and the structure is handled by a particle-to-surface contact algorithm. The distorted and failed shell elements will be eroded if a certain criterion is reached. The proposed CSMPM takes full advantages of both the finite element method and the MPM for bird strike simulation and is validated by several numerical examples.

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KW - Material point method

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Coupled Shell-Material Point Method for Bird Strike Simulation

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Keywords

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