Fluid Mechanics | |||
| Session 226 - Complex-Fluid and Bio-Fluid Dynamics II | |||
| This session will focus on the hydrodynamics of complex and bio-fluids. Topics include the dynamics of biomolecules (e.g., proteins and single DNA chains), blood flow, hydrodynamic separation of particles and cells, and hydrodynamic phenomena in drug-delivery systems. | |||
| Chair: | Anuj Chauhan | ||
| CoChair: | Charles Eggleton | ||
| 226a | A Multi-Scale 3-D Computational Model Predicts That Cell Deformation Influences the Shear Threshold Phenomenon Parag Pawar, Charles Eggleton, Konstantinos Konstantopoulos | ||
| 226b | Modeling Release of Nanoparticles from Mobile Microcapsules Rolf Verberg, Alexander Alexeev, Anna C. Balazs | ||
| 226c | Hydrodynamic Interactions during AFM Imaging of Biological Cells: Can AFM Truly Resolve Lipid Membrane Position? Vladimir G. Zarnitsyn, Andrei G. Fedorov | ||
| 226d | Dynamics of Vesicles in Linear Flows Petia M. Vlahovska | ||
| 226e | Prediction of Rheological Properties of Structured Fluids in Homogeneous Shear Flows Based on a Realizable Model for the Orientation Dyad YoChan Kim, Liping Jia, Andre Benard, Charles A. Petty | ||
| 226f | Platelet-Platelet Collisions and Brownian Motion of Platelets near a Surface Nipa A. Mody, Michael R. King | ||
| 226g | Cellular Contact Area and Detachment in a Shear Flow Kit Yan Chan, Julia M. Ross, Charles Eggleton | ||
| 226h | Formation of Stable Wrinkles and Tips on Skalak-Type Membranes Walter R. Dodson, Panagiotis Dimitrakopoulos | ||
| 226i | A Computational Approach to Soft-Tissue Fluid-Structure Interaction Michalis Xenos, MahadevaBharath R. Somayaji, Andreas A. Linninger | ||
| 226j | A New Dielectrophoretic Theory for Red Blood Cells: the Role of Internal and External Double Layers Zachary R. Gagnon, Hsueh-Chia Chang | ||
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