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Meeting MS&T24: Materials Science & Technology
Symposium Advances in Multiphysics Modeling and Multi-modal Imaging of Functional Materials
Presentation Title A Thermodynamically Consistent Model for Yield Stress Fluids
Author(s) Qi Wang
On-Site Speaker (Planned) Qi Wang
Abstract Scope In this study, we formulate a thermodynamically consistent rheological model for yield stress fluids by introducing an internal dynamic variable and extending the framework established by Kamani et al (2021) and the classical Oldroyd-B model. The dynamics of the internal variable capture the material’s transient response to changes in deformation, characterized by an effective relaxation time, elastic modulus, and viscosity. To assess the model’s validity and range of applicability, we compare it with the recently developed Kamani-Donley-Rogers (KDR) model in terms of various material and rheometric functions, highlighting both divergences and parallels between the two models. Our numerical results on a host of material functions and rheological parameters illustrate the practical applicability and advantages of the new thermodynamically consistent model over the KDR model. Specifically, the new model complies with the second law of thermodynamics and can describe a broader range of rheological properties of yield stress fluids.

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Thermodynamically Consistent Model for Yield Stress Fluids
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Analytical Model and Dynamical Phase-Field simulations of Terahertz Susceptibility in Ferroelectrics
Atom-to-Architecture Co-Design of Next-Generation High-Efficiency Microelectronics through High-Fidelity Device Modeling
Automated Quantification and Quality of Piezo Force Microscopy Results Especially for Polycrystalline Piezoelectrics
Chemo-Mechanical Origin of Accelerated Oxidation Near the Surface Flaws
Construction of Coarse-Grained Molecular Dynamics with Many-Body Non-Markovian Memory
Deep Operator Learning for Battery Characterization: From Materials to Systems
Determining Heterogeneous Elastic Properties of Soft Materials Using Physics-Informed Neural Networks
Equilibrium and Nonequilibrium Thermodynamics of Ferroics
Fouriera: Automated Spectral Methods for Multiphysics Problems via Symbolic Computing
Identifying Internal Process Order Parameters in Nonstoichiometric Oxides Described by Sublattice Model
Insight into Optical Control of Ferroelectrics Using Density Functional Theory
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Molecular Dynamic Simulation of Pectin and Cellulose Nanocrystals Composites
Nanocomposite Electrical Generators: A Multiscale Approach
Numerical Solution for the Average Velocity of Dislocations Following the Kink-Pair Mechanism
Probing Short-Wavelength Magnonics Using IR-Band Stroboscope
The Cheap Stochastic Surrogate Model for the Precipitation Quasi-Geostrophic Equations
Thermodynamics and Ultrafast Evolution of Nanoscale Polar Structures
Ultrafast X-Ray Imaging and Dynamics in Functional Complex Oxides: Nanoscale Transformations and Dynamical Modes
X-Ray Ptychographic Tomography at the Diamond Light Source

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