Materials (May 2022)

Characterization of the Effect of Hollow Glass Beads on the Mechanical Properties of Structural Adhesives

  • João P. J. R. Santos,
  • Daniel S. Correia,
  • Eduardo A. S. Marques,
  • Ricardo J. C. Carbas,
  • Frida Gilbert,
  • Lucas F. M. da Silva

DOI
https://doi.org/10.3390/ma15113817
Journal volume & issue
Vol. 15, no. 11
p. 3817

Abstract

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Adhesives are extensively used in the automotive and aeronautical industries as they enable the creation of durable and light weight joints, with exceptional strength to weight ratios. The constant search for the means of adapting the mechanical performance of adhesives to each application has led to the use of several types of fillers to change their properties. Following a study on the effect of inorganic fillers, i.e., hollow glass beads, in the failure mechanisms of single lap joint’s (SLJ), this work focuses on the response of the strength and fracture properties of structural adhesives to this filler. To this end, their tensile strength and mode I fracture properties were thoroughly analyzed by performing bulk tensile and double-cantilever beam (DCB) tests, at a quasi-static speed. The specimens were manufactured by adding different %v/v of filler to two epoxy-based crash resistant adhesives. Both adhesives have shown a negligible effect on the tensile strength, a decrease in strain at failure and critical energy release rate in mode I, as well as an increase of the Young’s modulus, for higher % in volume of hollow glass beads. These phenomena were further analyzed recurring to scanning electron microscopy, and the concept of rule of mixtures.

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