Fracture model for cemented aggregates | Zendy

Aleksander Zubelewicz | Zendy; Darla Graff Thompson | Zendy; Martin OstojaStarzewski | Zendy; Axinte Ioniţă | Zendy; Devin Shunk | Zendy; Matthew W. Lewis | Zendy; Joe C Lawson | Zendy; Sohan Kale | Zendy; Seid Korić | Zendy

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Fracture model for cemented aggregates

Author(s) -

Aleksander Zubelewicz,

Darla Graff Thompson,

Martin OstojaStarzewski,

Axinte Ioniţă,

Devin Shunk,

Matthew W. Lewis,

Joe C Lawson,

Sohan Kale,

Seid Korić

Publication year - 2013

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/1.4789791

Subject(s) - materials science , coalescence (physics) , composite material , fracture (geology) , explosive material , plane stress , structural engineering , finite element method , astrobiology , engineering , chemistry , physics , organic chemistry

A mechanisms-based fracture model applicable to a broad class of cemented aggregates and, among them, plastic-bonded explosive (PBX) composites, is presented. The model is calibrated for PBX 9502 using the available experimental data under uniaxial compression and tension gathered at various strain rates and temperatures. We show that the model correctly captures inelastic stress-strain responses prior to the load peak and it predicts the post-critical macro-fracture processes, which result from the growth and coalescence of micro-cracks. In our approach, the fracture zone is embedded into elastic matrix and effectively weakens the material's strength along the plane of the dominant fracture

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