Author(s)

Amin Al Irobaidi

Faculty of Engineering, Materials Department, AlBalq’a Applied University (BAU), Salt, Jordan.

This study investigates the thermal behavior of Polyolefin containing Paraffin and Nano Hydrated aluminum silicate Al2Si2O5 (OH) 4 (Kaolin) particles to enhance store energy at ambient temperature. The hybrid Nano composite is based on polyolefin PE as a matrix, whereby paraffin wax and Kaolin were hot blended at varying concentrations. In addition Carbon Nanotube (CNTs) was added in different relative low concentrations to improve the thermal transition among the polymer matrix, since polymer domains are considered as isolator. The composite was prepared by melt mixing using a Brabender Plasrograph and a Two Role Mill. Thermal properties of the composite were determined using DSC and Melt flow Index. Because TES materials are subjected to melting and freezing during life time, multiple extrusion tests to simulate the degradation process of the composite were carried out. FTIR was applied to determine the degradation effect and investigate microstructure changes of the composite. The results obtained demonstrate that the blend shows a tendency to be thermally active at low temperatures. DSC tests evidenced a decrease in melt tempera-ture as a result of increasing Kaolin content and some changes in the latent heat of the compound.

Phase Change Materials, Polymer Composites, Nano Kaolin, TES, Carbon Nanotubes, PE-Wax

Irobaidi, A. (2018) Experimental Approaches to Improve Thermal Stability of Organic Phase Change Properties. Journal of Materials Science and Chemical Engineering, 6, 125-135. doi: 10.4236/msce.2018.67014.