Possibility of Increasing the Mechanical Strength of Carbon/Epoxy Composites by Addition of Carbon Nanotubes

Branislav Duleba; František Greškovič; Ľudmila Dulebová; Tomasz Jachowicz

doi:10.4028/www.scientific.net/MSF.818.299

Paper Titles

The Analysis of the Shape and Mass of the Frames of Assembly Presses
p.276

RP Technology Used for the Production of Metal Parts
p.280

Modification of Milling Tools and their Coating for Machining Sandwich Materials
p.284

Analysis of Pearlitic Cold Drawn Steel Wire
p.288

X-Ray Microtomograph Detection of Internal Defects for a UD Prepreg Composite
p.295

Possibility of Increasing the Mechanical Strength of Carbon/Epoxy Composites by Addition of Carbon Nanotubes
p.299

Analysis of the Reason of Non-Homogeneity of Molded Part from Semi-Crystalline PPS
p.303

Analysis of Short Glass Fiber Orientation in Injection Moulded Components
p.307

Application of Natural Fibers in Hybrid Composite Materials
p.311

HomeMaterials Science ForumMaterials Science Forum Vol. 818Possibility of Increasing the Mechanical Strength...

Possibility of Increasing the Mechanical Strength of Carbon/Epoxy Composites by Addition of Carbon Nanotubes

Abstract:

The development of nanoparticle reinforced polymer composites is presently seen as one of the most promising approaches in the field of future engineering applications. The unique properties of at least some of these nanoparticles (e.g., CNTs or carbon black) and the possibility of combining them with conventional reinforcements (e.g., carbon-, glass-or aramid-fibers) has led to an intense research in the field of nanocomposites. This study presents mechanical properties of two carbon composites made from bisphenol A epoxy resin (E) and 3 layers of 160 g/m² carbon cloth with twill (TC) and plain (PC) weave as a reference and three-composite system that consists from carbon fiber reinforced epoxy matrix and 1% of multi-wall carbon nanotubes dispersed in epoxy resin. Used hardener H507 was based on cycloaliphatic polyamine with absence of nonylphenol. Samples were also tempered at 80 oC (for 12hours) for improvement of their thermal resistance.