A relaxation is seen in the isochronal curves and in the Cole-Cole plots, which is attributed to a Maxwell-Wagner-Sillars polarization taking place at the interface between the crystalline inclusions and the amorphous matrix. The intensity of this relaxation is presented in relation to the ...
This is now commonly referred to as the Maxwell–Wagner–Sillars (MWS) effects (Maxwell, 1891, Wagner, 1914, Sillars, 1937). The interface effect not only occurs to the dielectric constant, but also to the electrical conductivity. In an attempt to capture the observed high conductivity and ...
The Maxwell–Wagner–Sillars (MWS) relaxation is studied for glass‐bead–polystyrene (PS) composites having compositions from 0% to ∼50% in volume, in the range 20 Hz–1 MHz and for temperatures varying from room temperature to 280 °C. For the PS matrix, the complex permittivities ...
Maxwell-Wagner-SillarsHydrogelDielectricRadio frequencyPermittivityArticle describes study investigating Maxwell-Wagner-Sillars (MWS) dynamics and electromagnetic radio-frequency (RF) actuation of the volumetric phase change in a hybrid polymer composite consisting of hydrogel suspended with high-k nanoparticles....
Maxwell-Wagner-SillarsPolystyrene-glass-bead and styrene/methacrylic acid copolymer-glass-bead composites were investigated by dielectric spectrometry in order to study the Maxwell-Wagner-Sillars (MWS) interfacial relaxation. Untreated glass beads and glass beads with various surface coatings were both used...
Bergeret, Polystyrene-glass bead composites: Maxwell-Wagner- Sillars relaxations and percolation, J. Polym. Sci., Part B: Polym. Phys. 35 (1997) 1349-1359.Perrier, G.; Bergeret, A. Polystyrene-Glass Bead Composites: Maxwell-Wagner-Sillars Relaxations and Percolation. J. Polym. Sci. P...
Mechanics of MaterialsX. Xia, Z. Zhong, G. J. Weng, Maxwell-Wagner-Sillars mechanism in the frequency dependence of electrical conductivity and dielectric per- mittivity of graphene-polymer nanocomposites, Mechanics of Materials 109 (2017) 42-50....
Bergeret, Polystyrene-glass bead composites: Maxwell-Wagner- Sillars relaxations and percolation, J. Polym. Sci., Part B: Polym. Phys. 35 (1997) 1349-1359.Perrier, G.; Bergeret, A. Polystyrene-Glass Bead Composites: Maxwell-Wagner-Sillars Relaxations and Percolation. J. Polym. Sci. Pa...
Nano onion carbonElectromagnetic wave absorptionElectromagnetic interference shieldingPhotothermalThe rational construction of microstructure and composition with enhanced Maxwell-Wagner-Sillars effect(MWSE)is still a challenging direction for reinforcing electromagnetic wave(EMW)absorption performance,and the related ...
Arous M, Kallel A, Fakhfakh Z and Perrier G 1997 Maxwell-Wagner-Sillars relaxations in surface-modified glass-bead polystyrene-based composites Composite Interfaces 5 137-53M. Arous, A. Kallel, Z. Fakhfakh, and G. Perrier. Maxwell-Wagner-Sillars relaxations in surface-modified glass-bead ...