Physicomechanical Properties of Ice Composite Materials Reinforced with Carbon Fillers

Abstract

Samples of composite materials with an ice matrix (ICM) from distilled water reinforced with carbon fillers (carbon fibers and nanotubes) are synthesized to improve the physicomechanical properties of ice. The effect of double reinforcement (carbon bands and wood chips) on the strength and deformation of composites with an ice matrix is studied. The possibility to control the strength properties of ICM by varying the amount and topology of the reinforcing component and the additional use of dispersion fillers (carbon nanotubes and wood chips) is shown. An improvement in the strength properties of composites in comparison with samples of unreinforced ice obtained by freezing distilled water is found.