Effect of Silty-Sand Compressibility on Transferred Velocity from Impulsive Blast Loading


  1. Scherbatiuk, K.
  2. Pope, D.
  3. Fowler, J.
  4. Fang, J.
Corporate Authors
Defence R&D Canada - Suffield, Ralston ALTA (CAN)
A common assumption made in calculating response of walls subjected to blast loading is that the reflected blast loading is often based on rigid body dynamics along the thickness of walls and zero particle velocity at the fluid-structure interface. Of interest to the authors is the development of a quick-running impulse-dominated structural response model for soil-filled concertainer walls that assumes reflected impulse assuming zero particle velocity during the course of loading. The magnitude of response will directly depend on the velocity transferred in the thickness direction by the blast loading. The aim of this study is to assess whether a reduction factor should be applied to reduce the initial velocity corresponding to the zero-particle-velocity reflected impulse for concertainer walls filled with compressible silty-sand. Results obtained from a 1-D numerical program using a simple analytical coupling model are validated with those obtained from a commercial coupled Computation Fluid Dynamics and Computational Solid Mechanics (CFD/CSM) code. Both coupled and uncoupled loading combinations are investigated for rigid body, elastic, and compressible silty-sand material behaviours using the simple 1-D numerical program developed and validated. Graphical results for a range of peak blast pressures are compiled to present the differences in zero-particle-velocity reflected impulse required to attain the same velocity in the thickness direction for each different combinatio
Report Number
DRDC-SUFFIELD-SL-2005-013 — Scientific Literature
Date of publication
14 Sep 2006
Number of Pages
Hardcopy;Document Image stored on Optical Disk

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