Micromechanics-based determination of effective elastic properties of polymer bonded explosives
Polymer bonded explosives are particulate composites containing a high volume fraction of stiff elastic explosive particles in a compliant viscoelastic binder. Since the volume fraction of particles can be greater than 0.9 and the modulus contrast greater than 20 000, rigorous bounds on the elastic...
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Veröffentlicht in: | Physica. B, Condensed matter Condensed matter, 2003-10, Vol.338 (1), p.8-15 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Polymer bonded explosives are particulate composites containing a high volume fraction of stiff elastic explosive particles in a compliant viscoelastic binder. Since the volume fraction of particles can be greater than 0.9 and the modulus contrast greater than 20
000, rigorous bounds on the elastic moduli of the composite are an order of magnitude different from experimentally determined values. Analytical solutions are also observed to provide inaccurate estimates of effective elastic properties. Direct finite element approximations of effective properties require large computational resources because of the complexity of the microstructure of these composites. An alternative approach, the recursive cells method (RCM) is also explored in this work. Results show that the degree of discretization and the microstructures used in finite element models of PBXs can significantly affect the estimated Young's moduli. |
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ISSN: | 0921-4526 1873-2135 |
DOI: | 10.1016/S0921-4526(03)00451-4 |