Title of article
Development and verification of a meso-scale based dynamic material model for plain-woven single-ply ballistic fabric
Author/Authors
M. Grujicic، نويسنده , , W. C. Bell، نويسنده , , T. He، نويسنده , , B. A. Cheeseman، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2008
Pages
23
From page
6301
To page
6323
Abstract
A meso-scale unit-cell based continuum material
constitutive model has been developed for plain-woven
single-ply ballistic fabric materials. This model, due to its
computational efficiency, is suitable for use in computational
analyses of the ballistic-protection performance of
multi-layer body-armor vests. The model utilizes the continuum-
level in-plane and out-of-plane deformation-state
of the material, an energy minimization procedure and a
simple account of yarn slip to update the structure/architecture
of the fabric unit cell. Forces and moments
developed within the structural components of the unit cell
are then used to compute the continuum-level stress state at
the material points associated with the unit cell in question.
The model is implemented in a user-material subroutine
suitable for use within commercial finite-element programs.
To validate the model, a series of transient nonlinear
dynamic analyses of the impact of a square-shaped
fabric patch with a spherical projectile is carried out and
the computed results compared with their counterparts
obtained using a more traditional finite-element approach
within which yarns and yarn weaving are modeled
explicitly. The results obtained show that the material
model provides a reasonably good description for the fabric
deformation and fracture behavior under a variety of
boundary conditions applied to fabric edges and under
varying fictional conditions present at the yarn/yarn and
projectile/fabric interfaces. In addition, the overall ballistic
energy absorption capacity of the fabric as well as its yarnstrain
energy, yarn-kinetic energy, and frictional sliding
contributions are predicted with reasonable accuracy by the
proposed material model for fabric
Journal title
Journal of Materials Science
Serial Year
2008
Journal title
Journal of Materials Science
Record number
834662
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