Takafumi Sasaki scite author profile

Heart valve flow computation requires accurate representation of boundary layers near moving solid surfaces, including the valve leaflet surfaces, even when the leaflets come into contact. It also requires dealing with a high level of geometric complexity. We address these computational challenges with a space-time (ST) method developed by integrating three special ST methods in the framework of the ST Variational Multiscale (ST-VMS) method. The special methods are the ST Slip Interface (ST-SI) and ST Topology Change (ST-TC) methods and ST Isogeometric Analysis (ST-IGA). The computations are for

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Aorta Flow Analysis and Heart Valve Flow and Structure Analysis

Takizawa

Tezduyar

Uchikawa

et al. 2018

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Heart Valve Flow Computation with the Space–Time Slip Interface Topology Change (ST-SI-TC) Method and Isogeometric Analysis (IGA)

Takizawa

Tezduyar

Terahara

et al. 2017

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One-step solvothermal synthesis of cubic-shaped ITO nanoparticles precisely controlled in size and shape and their electrical resistivity

et al. 2010

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Mesh refinement influence and cardiac-cycle flow periodicity in aorta flow analysis with isogeometric discretization

et al. 2019

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Takafumi Sasaki

Heart valve flow computation with the integrated Space–Time VMS, Slip Interface, Topology Change and Isogeometric Discretization methods

Aorta Flow Analysis and Heart Valve Flow and Structure Analysis

Heart Valve Flow Computation with the Space–Time Slip Interface Topology Change (ST-SI-TC) Method and Isogeometric Analysis (IGA)

One-step solvothermal synthesis of cubic-shaped ITO nanoparticles precisely controlled in size and shape and their electrical resistivity

Mesh refinement influence and cardiac-cycle flow periodicity in aorta flow analysis with isogeometric discretization

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