On the fluidic response of structures in hypervelocity impacts

Andrew Thurber; Javid Bayandor

doi:10.1115/1.4028854

On the fluidic response of structures in hypervelocity impacts

Andrew Thurber
, Javid Bayandor

Department of Mechanical and Aerospace Engineering

Virginia Polytechnic Institute and State University

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

11 Scopus citations

Abstract

In a hypervelocity impact (HVI) event, the shock pressures exceed the strength of common aerospace materials, and brief shock-induced temperature rises cause melting and vaporization of most structural bodies. Under these extreme conditions, the failure and deformation of solids can resemble fluid flow. By using meshless Lagrangian models in an explicit computational framework, this work identifies analogous fluidic interactions and further quantifies the role of shear and inertial forces in HVIs.

Original language	English
Article number	041101
Journal	Journal of Fluids Engineering, Transactions of the ASME
Volume	137
Issue number	4
DOIs	https://doi.org/10.1115/1.4028854
State	Published - Apr 1 2015

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abstract = "In a hypervelocity impact (HVI) event, the shock pressures exceed the strength of common aerospace materials, and brief shock-induced temperature rises cause melting and vaporization of most structural bodies. Under these extreme conditions, the failure and deformation of solids can resemble fluid flow. By using meshless Lagrangian models in an explicit computational framework, this work identifies analogous fluidic interactions and further quantifies the role of shear and inertial forces in HVIs.",

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AB - In a hypervelocity impact (HVI) event, the shock pressures exceed the strength of common aerospace materials, and brief shock-induced temperature rises cause melting and vaporization of most structural bodies. Under these extreme conditions, the failure and deformation of solids can resemble fluid flow. By using meshless Lagrangian models in an explicit computational framework, this work identifies analogous fluidic interactions and further quantifies the role of shear and inertial forces in HVIs.

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On the fluidic response of structures in hypervelocity impacts

Abstract

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