A comparative analysis of pressure centroid and thermal interactions within the Kozeny-Carman architecture across a spectrum of bearing configuration under transient dynamic regimes
Key Points
Pressure centroid directly influences thermal interactions within the Kozeny-Carman architecture, enhancing performance under dynamic conditions.
Optimal bearing configurations can significantly improve the efficiency and stability of thermal interactions in transient regimes.
Assessment across varying configurations reveals notable differences in pressure centroids and thermal behavior during dynamic testing.
This comparative analysis may inform better designs, highlighting the importance of understanding dynamic interactions.
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A comparative analysis of pressure centroid and thermal interactions within the Kozeny-Carman architecture across a spectrum of bearing configuration under transient dynamic regimes | Synapse