TAWSS: Time-Averaged Wall Shear Stress Under Different Blood Viscosity Conditions
by Lei Zhengyao·Updated 10d ago
5.5 KB1files
Available on 1 platform
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Description
Lei Zhengyao's dataset provides time-averaged wall shear stress (TAWSS) values from transient cardiovascular simulations. Values were obtained from the final cardiac cycle to ensure periodic stability. The dataset includes results for below-normal, normal, and high blood viscosity conditions, representing inter-individual variability.
Use Cases
Modeling hemodynamic stress in vascular simulations based on the provided TAWSS values.
Analyzing the impact of blood viscosity variability on wall shear stress.
Validating computational fluid dynamics (CFD) models of blood flow using the simulation-derived data.
Studying the relationship between cardiac cycle stability and shear stress metrics.
Strengths
Data is derived from transient simulations using a final, stable cardiac cycle.
Explicitly models three distinct blood viscosity conditions (below-normal, normal, high).
Shared under a permissive CC-BY-4.0 license for reuse.
Limitations
The dataset is very small at 5.5 KB, indicating limited scope.
Row count and column-level documentation are unknown, requiring manual inspection after download.
Geographic and temporal coverage of the source simulations is unspecified.
Provenance
Source
figshare, author Lei Zhengyao.
Collection Method
Obtained from transient cardiovascular simulations.
Freshness
Last updated 2026-05-28 17:36:29; freshness should be verified.