Numerical Simulation Study of the Fluid-Structure Interaction of the Artery under Periodic External Forcing of Massage
Y.Q. Xie, M.L. Li, L.P. Li
Fuzhou University, Fuzhou, Fujian, China
Keywords: massage, vibrating manipulation, artery, hemodynamics, fluid-structure interaction
Abstract
The impact of vibrating manipulation on arterial hemodynamics and mechanical properties is explored by using the finite element method for the fluid-structure interaction. Numerical simulation results show that massage greatly changes the flow behavior of blood within the artery. Under the massage manipulation, the mean blood flow increases by more than 5.34% at a frequency of 2ʄ0 and by smaller values at frequencies of f0 and 4ʄ0. The blood flow has obvious disorder characteristics and an obvious wall shear stress concentration in the mixed flow area. The von Mises stress of the artery wall increases, reaching a peak value at the maximum deformation.
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