Open Access
Subscription Access
Carbon Nanotube Reinforced-Epoxy Based Adhesives: Correlations Between Fracture Morphology and Chemical Functional Changes
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
10.12783/asc37/36401
Full Text:
PDFRefbacks
- There are currently no refbacks.