Experimental and numerical investigations of the scale levels in spall fracture of D16 aluminum

A. E. Mayer; S. A. Atroshenko; E. N. Borodin

Experimental and numerical investigations of the scale levels in spall fracture of D16 aluminum

A. E. Mayer, S. A. Atroshenko, E. N. Borodin

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

Abstract

Results of microstructural investigation of the D16 aluminum spall surface are presented in comparison with the numerical simulation of the fracture process. A fracture model based on the plasticity driven growth of voids is used in simulation. Different scale levels of fracture are discussed, and the main level of fracture is attempted to be allocated, which is about 1-5 micrometers in the investigated case.

Original language	English
Pages (from-to)	23-25
Number of pages	3
Journal	Materials Physics and Mechanics
Volume	26
Issue number	1
Publication status	Published - 1 Jan 2016

Cite this

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title = "Experimental and numerical investigations of the scale levels in spall fracture of D16 aluminum",

abstract = "Results of microstructural investigation of the D16 aluminum spall surface are presented in comparison with the numerical simulation of the fracture process. A fracture model based on the plasticity driven growth of voids is used in simulation. Different scale levels of fracture are discussed, and the main level of fracture is attempted to be allocated, which is about 1-5 micrometers in the investigated case.",

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AU - Mayer, A. E.

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N2 - Results of microstructural investigation of the D16 aluminum spall surface are presented in comparison with the numerical simulation of the fracture process. A fracture model based on the plasticity driven growth of voids is used in simulation. Different scale levels of fracture are discussed, and the main level of fracture is attempted to be allocated, which is about 1-5 micrometers in the investigated case.

AB - Results of microstructural investigation of the D16 aluminum spall surface are presented in comparison with the numerical simulation of the fracture process. A fracture model based on the plasticity driven growth of voids is used in simulation. Different scale levels of fracture are discussed, and the main level of fracture is attempted to be allocated, which is about 1-5 micrometers in the investigated case.

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Experimental and numerical investigations of the scale levels in spall fracture of D16 aluminum

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