Water Absorption Dynamics in Medical Foam: Empirical Validation of the Lucas-Washburn Model

Weihua Mu, Lina Cao
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Abstract

This study extends the Lucas-Washburn theory through non-equilibrium thermodynamic analysis to examine fluid absorption in medical foams used for hemorrhage control. As a universal model for capillary flow in porous media, the theory demonstrated strong agreement with experimental results, confirming its semi-quantitative accuracy. Minor deviations, likely due to material heterogeneity, were observed and explained, enhancing the theory's applicability to real-world conditions. Our findings underscore the universality of the Lucas-Washburn framework and provide valuable insights for optimizing the design of medical foams, ultimately contributing to more effective bleeding control solutions in clinical applications.
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医用泡沫吸水动力学:卢卡斯-沃什伯恩模型的经验验证
本研究通过非平衡热力学分析扩展了卢卡斯-沃什伯恩理论,以研究用于控制出血的医用泡沫中的液体吸收情况。作为多孔介质中毛细管流动的通用模型,该理论与实验结果非常吻合,证实了其半定量的准确性。我们观察并解释了可能由于材料异质性造成的微小偏差,从而增强了该理论在实际条件下的适用性。我们的发现强调了卢卡斯-沃什伯恩框架的通用性,并为优化医用泡沫的设计提供了宝贵的见解,最终有助于在临床应用中找到更有效的出血控制解决方案。
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