Improved dielectric model for polyvinyl alcohol-water hydrogel at microwave frequencies

• Main Authors: You, Kok Yeow (Author), Z., Abbas (Author), K., Khalid (Author), M. Z. A., Rahman (Author)
• Format: Article
• Language: English
• Published: Science Publications, 2010.
• Subjects: TK Electrical engineering. Electronics Nuclear engineering
• Online Access: Get fulltext

 Problem statement: The study described rigorous dielectric modeling for Polyvinyl Alcohol (PVA)-water hydrogel mixture at microwave frequencies. Approach: A commercial open- ended coaxial sensor was used to measure the dielectric constant, loss factor and ionic conductivity, s of PVA-water hydrogel mixture ranging concentration of 80-100% water content. Results: The sensor was operating between 0.13 and 20 GHz at and above of room temperature (25±1)°C. Indirectly, the relaxation time, t, activation energy, Q and entropy change, ?S of the hydrogel mixtures are determined based on linear fitting of measured data using Debye and Arrhenius approaches. Conclusion/Recommendations: Two main relaxation processes were found ranging 2-10 and 10-20 GHz, respectively. Dielectric dispersion is suggested to describe by combination of Cole-Davidson (CD) and Debye (Dy) processes. The results are discussed qualitatively based on bound states of water in hydrogel mixtures.