Effects of Structural Viscoelasticity in Non-Divergence free Deformable Porous Media with Incompressible Constituents
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Publication Date
2018Author
Micheal Babatunde Oguntola, Mathew Ngugi Kinyanjui, John Agure Ogonji
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In this paper, we investigate the importance of structural viscoelasticity in the mechanical
response of deformable porous media with incompressible constituents
under sudden changes in the external applied quasi-static loads using mathematical
analysis. Here, the applied load is characterized by a step pulse or a trapezoidal
pulse. Mathematical models of non-divergence free deformable porous media are
often used to characterize the behaviour of biological tissues such as cartilages,
engineered tissue scaffolds, and bones which are viscoelastic and incompressible
in nature, and viscoelasticity may change with age, disease or by design. The
problem is formulated as a mixed boundary value problem of the theory of poroviscoelasticity,
in which an explicit solution is obtained in one-dimension. Further,
dimensional analysis is utilized to identify dimensionless parameters that can aid the
design of structural properties so as to ensure that the fluid velocity past the porous
medium remains bounded below a given threshold to prevent potential damage.
Our investigation shows that the fluid dynamics within the medium could abruptly
be altered if the applied load encounters a sudden change in time and structural
viscoelasticity is too small. This explains the confined compression experiment
clarifying the cause of micro-structural damages in biological tissues associated
with loss of tissue viscoelastic property, which leads to the cause of diseases like
Glaucoma.
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