Rheological and Electrical Study of a Composite Material Based on an Epoxy Polymer Containing Cyclotriphosphazene.

In this work, we have studied, formulated, prepared, and characterized the rheological and electrical behavior of a composite material based on an epoxy resin Diglycidyl Ether of Bisphenol A (DGEBA) reinforced with hexaglycidyl cyclotriphosphazene (HGCP). The epoxy system was cured with 4,4'-methylene dianiline (MDA). DGEBA-HGCP-MDA epoxy composite materials with reinforced HGCP which varied from 5% to 10% by weight were prepared by mixing in the molten state. The morphology was evaluated by SEM. The rheological behavior was studied using small deformation rheology. The electrical characterization was carried out with a frequency variation range from 1 Hz to 100 KHz at room temperature. These measurements revealed that the rheological and electrical behaviors strongly depend on the quantity of HGCP in the DGEBA matrix. The linear viscoelastic properties study reveals that the modulus of elasticity G' is dependent on the amount of HGCP present in the epoxy resin DGEBA. The capacitance-frequency measurements suggest a distribution of localized states in the band gap of the blends.

Application of microwave technology to the heat treatment of natural Youssoufia (Morocco) phosphates.

Microwave heating and conventional heating were used in the drying process of white phosphates and the pyrolysis of black phosphate. Microwave drying has been found to present faster kinetics, and the reaction mechanism is controlled by interfacial progression with a cylindrical symmetry for low powers and by diffusion for high microwave powers. Infrared thermography analysis shows that the heating mode is a function of the incident microwave power, the diameter of the reactor and the initial mass of the sample. The results of this study allowed us to understand the phenomena occurring during the microwave pyrolysis of black phosphate. Three temperature domains were revealed. Heating is attributed to the relaxation of polar molecules (water, polar organic molecules...) and to conduction losses of the different components of the phosphates and the products resulting from the decomposition of the mineral matrix as well as the carbon in the residues. Dielectric measurements at microwave frequencies showed that the dielectric constants (epsilon' and epsilon") decrease with time and reach values that are independent of the humidity of the phosphates, which correspond to the complete desorption of water. Cracks were observed in the microwave pyrolysis residues which also showed better cristallinity as revealed by SEM observation and XRD analysis. XPS analysis revealed for the fist time that the microwave pyrolysis residues contain less carbon than the residues of conventional heating, i.e. more oil is produced by microwave pyrolysis.