A class of ejecta transport test problems | Zendy

David Oro | Zendy; J. E. Hammerberg | Zendy; W. T. Buttler | Zendy; Fesseha Mariam | Zendy; C. L. Morris | Zendy; Chris Rousculp | Zendy; Joseph B. Stone | Zendy

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A class of ejecta transport test problems

Author(s) -

David Oro,

J. E. Hammerberg,

W. T. Buttler,

Fesseha Mariam,

C. L. Morris,

Chris Rousculp,

Joseph B. Stone

Publication year - 2012

Publication title -

aip conference proceedings

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.177

H-Index - 75

eISSN - 1551-7616

pISSN - 0094-243X

DOI - 10.1063/1.3686531

Subject(s) - ejecta , physics , scattering , particle (ecology) , mechanics , planar , computational physics , computer science , geology , supernova , astrophysics , optics , oceanography , computer graphics (images)

Hydro code implementations of ejecta dynamics at shocked interfaces presume a source distribution function of particulate masses and velocities, f0(m,u;t). Some properties of this source distribution function have been determined from Taylor- and supported-shockwave experiments. Such experiments measure the mass moment of f0 under vacuum conditions assuming weak particle-particle interactions and, usually, fully inelastic scattering (capture) of ejecta particles from piezoelectric diagnostic probes. Recently, planar ejection of W particles into vacuum, Ar, and Xe gas atmospheres have been carried out to provide benchmark transport data for transport model development and validation. We present those experimental results and compare them with modeled transport of the W-ejecta particles in Ar and Xe.

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