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Carbon Nanotube Reinforced-Epoxy Based Adhesives: Correlations Between Fracture Morphology and Chemical Functional Changes

SUCHILLA G. LEÃO, MILVIA O. DOS REIS, ELVIS C. MONTEIRO, ANTONIO F. AVILA

Abstract


This paper addresses the experimental correlations between failure mode morphologies and the chemical changes inside an epoxy-based adhesive nanomodified by carbon nanotubes. This “special†nanocomposite is under a combined loading. i.e., shear and peel stresses, commonly encountered into single lap joints under tension. An increase in intensity on FTIR spectra on chemical functional at wavenumbers ranges 750-835 cm-1, 1170-1250 cm-1 and 1450-1610 cm-1 are related to the ductile-like fracture morphology due to more molecular mobility. At meanwhile, the increase in intensity at 2950-3350 cm-1 wavenumber range is linked to brittle-like morphology fracture. The cohesive failure is associated to the ductile-like failure morphology, while the adhesive failure is related to brittle-like morphology fracture.


DOI
10.12783/asc37/36401

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