Accession Number:

ADA529974

Title:

Formation of Gaps at the Specimen-Bar Interfaces in Numerical Simulations of Compression Hopkinson Bar Tests on Soft, Nearly Incompressible Materials

Descriptive Note:

Final rept. Jul 2008-Dec 2009

Corporate Author:

ARMY RESEARCH LAB ABERDEEN PROVING GROUND MD WEAPONS AND MATERIALS RESEARCH DIRECTORATE

Report Date:

2010-09-01

Pagination or Media Count:

122.0

Abstract:

Numerical simulations of compression Hopkinson bar tests on soft, nearly incompressible materials were performed in an effort to understand inertial effects in these tests. The specimen was modeled as either a linear elastic or a nonlinear elastic solid the nonlinear model was calibrated to ballistic gelatin data. The simulations revealed a previously unreported phenomenon, namely, for sufficiently high strain rates in the specimen and sufficiently short rise times to the final strain rate, small gaps formed at both the specimen-incident bar and the specimen-transmission bar interfaces. The size of these gaps ranged from sub-micron to as large as 43 61549m. Gaps formed at small specimen strains but persisted out to large strains, closing and re-opening multiple times. At some instants the gaps extended over most of the face of the specimen. Unloading of the specimen and the pressure bars accompanied these gaps. In an effort to rule out numerical artifacts, the sensitivity of these results to mesh size and contact algorithm parameters was studied.

Subject Categories:

  • Metallurgy and Metallography
  • Mechanics

Distribution Statement:

APPROVED FOR PUBLIC RELEASE