Arterial pulse attenuation prediction using the decaying rate of a pressure wave in a viscoelastic material model

Abstract: The present study examines the possibility of attenuating blood pulses by means of introducing prosthetic viscoelastic materials able to absorb energy and damp such pulses. Vascular prostheses made of polymeric materials modify the mechanical properties of blood vessels. The effect of these materials on the blood pulse propagation remains to be fully understood. Several materials for medical applications, such as medical polydimethylsiloxane or polytetrafluoroethylene, show viscoelastic behavior, modifying the… Show more

“…There are a variety of engineering applications involving viscoelastic properties of materials, ranging from the more classic structural applications [ 1 , 2 ], through nanocomposites and biopolymers [ 3 ], to biomechanical models [ 4 , 5 ] and biomedical engineering [ 6 , 7 ]. There is also a variety of mathematical models to fit the performance of materials that have viscoelastic behavior [ 8 , 9 ].…”

Estimation of Tensile Modulus of a Thermoplastic Material from Dynamic Mechanical Analysis: Application to Polyamide 66

“…There are a variety of engineering applications involving viscoelastic properties of materials, ranging from the more classic structural applications [ 1 , 2 ], through nanocomposites and biopolymers [ 3 ], to biomechanical models [ 4 , 5 ] and biomedical engineering [ 6 , 7 ]. There is also a variety of mathematical models to fit the performance of materials that have viscoelastic behavior [ 8 , 9 ].…”

Estimation of Tensile Modulus of a Thermoplastic Material from Dynamic Mechanical Analysis: Application to Polyamide 66

Compound technique -based inline design strategy for water-hammer control in steel pressurized-piping systems