TAFSM

Team for Advanced Flow Simulation and Modeling



Home

Research Overview

Research Highlights

Projects

Takizawa Lab

Undergraduate Research

TAFSM Featured

TAFSM Recognized

Publication, Preprints

Currrent Team Members

Collaborators, Ex-Members

AHPCRC, History

Links

For more information:
  tezduyar@gmail.com

Fluid-Structure Interactions

Special Space-Time FSI Techniques for Spacecraft Parachutes
Wall Shear Stress and Oscillatory Shear Index Calculations With Refined Meshes
Multiscale Sequentially-Coupled Arterial FSI
Cerebral Aneurysm -- High-Resolution Wall Shear Stress
Cerebral Aneurysm -- Improved Boundary Layer Resolution
Orion Spacecraft Parachutes
FSI Modeling of Sails
Cerebral Aneurysm -- Hyperelastic Arterial Wall
Abdominal Aortic Aneurysm
Carotid-Artery Bifurcation
Cerebral Aneurysm -- Bifurcating-Artery Segment
Patient-Specific Computer Modeling of Arterial Dynamics and Blood Flow
Cerebral Aneurysm -- Variable Wall Thickness, High Blood Pressure
Windsock
Inflation of a Balloon
Flow in a Tube Constricted with a Flexible Diaphragm
FSI with Contact: A Cloth Piece Falling Over a Rigid Bar
Descent and Glide of a Complex Parachute Design
Disreefing of a G-12 Parachute
Fluid-Structure Interaction Modeling of Aneurysmal Conditions with High Blood Pressure
Wall Shear Stress Calculations for a Middle Cerebral Artery Bifurcation with Aneurysm
Computer Modeling of an Internal Carotid Artery
Mesh Update Methods for Flows with Moving Boundaries and Interfaces
Aerodynamics of Parachutes
Enhanced Discretization Space-Time Technique
Aerodynamics of a Parachute Crossing the Far Wake of an Aircraft
Flow Induced Vibrations of a Cantilevered, Flexible Pipe
Opening of a Round Parachute
Fluid-Structure Interaction in Interior Flows