Abstract
Herein, the surface treatment of polyurethane (PU) films via air, O2, N2, Ar, and their mixtures were tested. The treatment was performed to incorporate new polar functionalities on the polymer surface and achieve improved hydrophilic characteristics. The PU films were subjected to RF low-temperature plasma treatment. It was found that plasma treatment immensely enhanced the hydrophilic surface properties of the PU films in comparison with those of the pristine samples; the maximum plasma effect occurred for the PU sample in the presence of air plasma with treatment time of 180 s at nominal power of 80 W. The surface topography was also found to vary with plasma exposure time and the type of gas being used due to the reactivity of the gaseous media. Roughness analysis revealed that at higher treatment times, the etching/degradation of the surface became more pronounced. Surface chemistry studies revealed increased O2 and N2 elemental groups on the surface upon exposure to O2, N2, air, and Ar. Additionally, the aging study revealed that samples treated in the presence of air and Ar were more stable in comparison to those of the other gases for both the contact angle and peel test measurements.
Highlights
IntroductionPolyurethanes (PUs) are polymers known for their good mechanical properties, abrasion resistance, durability, flexibility, and biocompatibility, along with ease of finishing and low weight [1]
Polyurethanes (PUs) are polymers known for their good mechanical properties, abrasion resistance, durability, flexibility, and biocompatibility, along with ease of finishing and low weight [1].PUs is commonly used for industrial and medical applications as adhesive, coating, film, catheter, and orthopedic device [2]
Most polymers are characterized by low surface energy values resulting in inherently poor adhesion [3,4]
Summary
Polyurethanes (PUs) are polymers known for their good mechanical properties, abrasion resistance, durability, flexibility, and biocompatibility, along with ease of finishing and low weight [1]. PUs is commonly used for industrial and medical applications as adhesive, coating, film, catheter, and orthopedic device [2]. Despite its excellent properties, for some applications where good wettability and adhesion are required, the use of PUs is quite restricted. Most polymers are characterized by low surface energy values resulting in inherently poor adhesion [3,4]. The poor adhesion is mainly attributed to its chemical inertness due to a lack of polar functional groups on its surface. Further surface modification is mandatory for specific applications involving polymeric materials [2,5,6]
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