Micromechanical Behavior of Graphite / Epoxy Composites Part I: The Effect Of Fiber Sizing.

Abstract: The propagation of damage in continuous fiber polymer matrix composites depends strongly on the fiber / matrix interface (interphase). Therefore it is critical to measure interface behavior. The recent application of micro-Raman spectroscopy (MRS) in the field of composites micromechanics has created a new era of experimental micromechanics and shed light on a number of crucial points. MRS, with the ability to measure local stresses with a spatial resolution of 2 pm, allows very close monitoring of the interfa… Show more

“…Graphene is a single-plane film of carbon atoms in sp2 hybrid orbitals, which shows low electrical and thermal resistivity but also outstanding strength [1][2][3]; due to its lightweight, mechanical strength, and chemical inertness, graphene is one of the most attractive materials for a composite coating [4]. There are many graphene-related materials exploited as matrix reinforcement both for polymeric and metallic materials like, for example, fullerenes [5] carbon black [6], graphite [7], carbon nanotube, (CNT) [8] graphene oxide (GO) [9] and reduced graphene oxide (rGO) [10].…”

Morphological and functional characterization of electroplated Ni-graphene composite coatings

“…Graphene is a single-plane film of carbon atoms in sp2 hybrid orbitals, which shows low electrical and thermal resistivity but also outstanding strength [1][2][3]; due to its lightweight, mechanical strength, and chemical inertness, graphene is one of the most attractive materials for a composite coating [4]. There are many graphene-related materials exploited as matrix reinforcement both for polymeric and metallic materials like, for example, fullerenes [5] carbon black [6], graphite [7], carbon nanotube, (CNT) [8] graphene oxide (GO) [9] and reduced graphene oxide (rGO) [10].…”

Morphological and functional characterization of electroplated Ni-graphene composite coatings

Statistical Strength Theory for Fibrous Composite Materials

Effect of different types of carbon fillers on mechanical and rheological properties of cyclic olefin copolymer (COC) composites