HYDROPHOBICITY IMPROVEMENTS OF POLYMERS USED IN BIOMEDICAL APPLICATIONS.

Mohammad Motaher Hossain, Vinay Reddy Lokasani
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Abstract

Improvement in hydrophobicity is important for polymers used in various applications such as biomedical applications, as it can delay their degradation due to long-term exposure to moisture environments. Although a number of surface modification techniques have been developed over the years to improve hydrophobicity, their specific influences on hydrophobicity enhancement as well as long-term mechanical and tribological performances are yet to be fully understood. In this study, surface textures, with variation in type and geometry, are introduced on Ultrahigh Molecular Weight Polyethylene (UHMWPE) and High Density Polyethylene (HDPE) surfaces to study the effect of surface modification on hydrophobicity and long-term mechanical and tribological performances. Based on the theoretical study using Wenzel and Cassie-Baxter models, surface textures of various types and dimension are introduced on UHMWPE and HDPE surfaces. The results show that introduction of surface textures significantly improves the hydrophobicity of polymers. Specific relationship between texture type and geometry, and improvement in hydrophobicity is explored. Based on the comparison between experimental results and theoretical models, transition state modeling seems to be more suitable in describing the change in hydrophobicity with the addition of surface texture. The study provides useful guidelines to improve hydrophobicity of polymers for biomedical applications.

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用于生物医学应用的聚合物的疏水性改进。
疏水性的提高对于用于各种应用(如生物医学应用)的聚合物来说是重要的,因为它可以由于长期暴露于潮湿环境而延迟其降解。尽管多年来已经开发了许多表面改性技术来提高疏水性,但它们对疏水性增强以及长期机械和摩擦学性能的具体影响尚待充分了解。本研究在超高分子量聚乙烯(UHMWPE)和高密度聚乙烯(HDPE)表面引入了不同类型和几何形状的表面织构,以研究表面改性对疏水性和长期机械和摩擦学性能的影响。基于Wenzel和Cassie-Baxter模型的理论研究,介绍了UHMWPE和HDPE表面上各种类型和尺寸的表面织构。结果表明,表面织构的引入显著提高了聚合物的疏水性。探讨了结构类型和几何形状之间的具体关系,以及疏水性的改善。根据实验结果与理论模型的比较,过渡态模型似乎更适合描述表面织构增加后疏水性的变化。该研究为提高生物医学应用中聚合物的疏水性提供了有用的指导。
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