This article reports on the morphology, melting and crystallization behavior, thermal stability, flammability and thermal conductivity of shape-stabilized phase-change materials (PCM) for thermal energy storage, based on a soft Fischer–Tropsch paraffin wax, the PCM, blended with ethylene vinyl acetate (EVA). These immiscible blends were melt-mixed with expanded graphite (EG) (up to 9 wt%) to improve the thermal conductivity and flame resistance of the material. It was observed that the EG particles agglomerate in the absence of wax, but disperse much better in the EVA/wax blend, probably because the wax penetrates in between the EG layers (there seems to be a better interaction between wax and EG than between EVA and EG) and separates the l...
[[abstract]]This study reports the production of modified phase change materials (MPCMs) using the d...
An artificial aging study of novel heat absorbers based on phase change materials (PCMs) prepared fr...
An artificial aging study of novel heat absorbers based on phase change materials (PCMs) prepared fr...
The study reports on the flammability, thermal stability, impact properties and thermal conductivity...
A study of the morphology, dynamic mechanical, impact, and tensile properties of ethylene vinyl acet...
The preparation of Phase Change Materials (PCM) with improved thermal conductivity, based on linear ...
The influence of the introduction of expanded graphite (EG), as well as combinations of EG with Cloi...
Phase change materials fabricated from high density polyethylene (HDPE) blended with 40 or 50 wt% co...
The latent heat thermal storage using Phase Change Materials (PCMs) is one of the essential aspects ...
Expanded graphite (EG) is highly thermally conductive and has a porous structure, making it an ideal...
Phase change material (PCM) composites for latent thermal energy storage were made by mixing three d...
Natural aging of shape-stabilized phase change materials containing linear low density polyethylene ...
Artificial aging of Shape Stabilized Phase Change Materials (SSPCM) based on linear low density poly...
Phase change materials (PCMs) are energy storage materials which can be used for maintaining a contr...
This study addressed the characterization and description of calorimetric and dynamic mechanical pro...
[[abstract]]This study reports the production of modified phase change materials (MPCMs) using the d...
An artificial aging study of novel heat absorbers based on phase change materials (PCMs) prepared fr...
An artificial aging study of novel heat absorbers based on phase change materials (PCMs) prepared fr...
The study reports on the flammability, thermal stability, impact properties and thermal conductivity...
A study of the morphology, dynamic mechanical, impact, and tensile properties of ethylene vinyl acet...
The preparation of Phase Change Materials (PCM) with improved thermal conductivity, based on linear ...
The influence of the introduction of expanded graphite (EG), as well as combinations of EG with Cloi...
Phase change materials fabricated from high density polyethylene (HDPE) blended with 40 or 50 wt% co...
The latent heat thermal storage using Phase Change Materials (PCMs) is one of the essential aspects ...
Expanded graphite (EG) is highly thermally conductive and has a porous structure, making it an ideal...
Phase change material (PCM) composites for latent thermal energy storage were made by mixing three d...
Natural aging of shape-stabilized phase change materials containing linear low density polyethylene ...
Artificial aging of Shape Stabilized Phase Change Materials (SSPCM) based on linear low density poly...
Phase change materials (PCMs) are energy storage materials which can be used for maintaining a contr...
This study addressed the characterization and description of calorimetric and dynamic mechanical pro...
[[abstract]]This study reports the production of modified phase change materials (MPCMs) using the d...
An artificial aging study of novel heat absorbers based on phase change materials (PCMs) prepared fr...
An artificial aging study of novel heat absorbers based on phase change materials (PCMs) prepared fr...