Cost-Effective Fabrication of High-Density Polyethylene/Graphene Nanocomposites by an In Situ Exfoliation Method Based on a Series Explosion Effect

Abstract: As ideal nanofillers, graphene nanosheets (GNS) are widely used to prepare high-performance graphene-reinforced nanocomposites owing to their excellent properties. However, the high manufacturing cost and low production efficiency of GNS severely restrict their large-scale application. Herein, a cost-effective melt blending approach was demonstrated for facilely preparing high-density polyethylene (HDPE)/GNS nanocomposites by using industrial-grade expanded graphite (EG). The exfoliation and dispersion of GNS … Show more

“…In the second step, a suitable method for the production of nanocomposites must be selected so that a suitable distribution of the amplier takes place in the ground phase. 169,170 Preparation of nanocomposites by three methods of in situ polymerization, 171 melt mixing 172,173 and solution, 174,175 for polymer nanocomposites has long been industrially developed and used.…”

A review: studying the effect of graphene nanoparticles on mechanical, physical and thermal properties of polylactic acid polymer

“…In the second step, a suitable method for the production of nanocomposites must be selected so that a suitable distribution of the amplier takes place in the ground phase. 169,170 Preparation of nanocomposites by three methods of in situ polymerization, 171 melt mixing 172,173 and solution, 174,175 for polymer nanocomposites has long been industrially developed and used.…”

A review: studying the effect of graphene nanoparticles on mechanical, physical and thermal properties of polylactic acid polymer

Efficient exfoliation and dispersion of expanded graphite through dry ice explosion synergized shear flow field for high-thermal conductive NR/EG composite preparation in large-scale