subject: Mechanical Engineering subject: microfluidics subject: fluid-structure interactions
10.4231/6GGC-ZH07
Ivan C. Christov , Shrihari Dhananjay Pande , Xiaojia Wang
05/23/2022
The Jupyter Notebook makes the plots in the manuscript "Flow rate--pressure drop relations for new configurations of slender compliant tubes arising in microfluidics experiments" by Wang, Pande & Christov (2022). Zip file provides SimVascular case files.
elastic deformation fluid-structure interactions laminar flow lubrication theory Mechanical Engineering microfluidics soft hydraulics viscous fluid flow
10.4231/SX6D-1370
Ivan C. Christov , Xiaojia Wang
08/03/2022
Zip files with codes and data to make the plots in the manuscript "Reduced modeling and global instability of finite-Reynolds-number flow in compliant rectangular channels" by Wang & Christov (2022).
elastic deformation flow-structure instability fluid-structure interactions hydrodynamic instability lubrication theory Mechanical Engineering microfluidics soft hydraulics viscous fluid flow
10.4231/37PY-K896
Ivan C. Christov , Xiaojia Wang
10/01/2021
The Jupyter Notebook generates all the data and makes all the plots in the published paper "Reduced models of unidirectional flows in compliant rectangular ducts at finite Reynolds number" by Wang and Christov in Phys. Fluids, 2021.
boundary value problem fluid-structure interactions laminar flow lubrication theory matched asymptotics Mechanical Engineering microfluidics soft hydraulics viscous fluid flow
10.4231/35CV-PN42
Ivan C. Christov , Shrihari Dhananjay Pande , Xiaojia Wang
11/23/2022
Zip files with codes and data to make the plots in the manuscript "Flow rate--pressure drop relations for new configurations of slender compliant tubes arising in microfluidics experiments" by Wang, Pande & Christov (2022).
CFD elastic deformation fluid-structure interactions lubrication theory Mechanical Engineering microfluidics soft hydraulics viscous fluid flow
10.4231/7AXT-KP80
Hector Gomez , Sthavishtha R. Bhopalam
09/30/2024
Explore droplet fibrotaxis: a new mechanism that uses an anisotropic fiber-reinforced deformable solid to achieve spontaneous and gradient-free droplet transport
CFD Chemical Engineering elastic deformation elastocapillarity fluid dynamics Fluid Mechanics fluid-structure interactions isogeometric analysis Mechanical Engineering microfluidics multi-component flow multiphase flow phase field soft matter soft wetting surface tension
10.4231/CY5F-MR37
Hector Gomez , Sthavishtha R. Bhopalam
10/25/2024
Computational modeling of elasto-capillarity in computational mechanics: a study of fluid-structure interaction phenomena driven by capillary forces at fluid-fluid interfaces.
CFD Chemical Engineering compound droplet computational mechanics Computational Modeling elastic deformation elastocapillarity fluid dynamics Fluid Mechanics fluid-structure interactions isogeometric analysis mathematical modeling Mechanical Engineering Microdroplets microfluidics multi-component flow multiphase flow phase field soft matter soft wetting surface tension
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