Advanced Manufacturing: Polymer & Composites Science (Aug 2020)

Path-dependent bond-line evolution in equilibrated core honeycomb sandwich structures

  • Daniel Zebrine,
  • Mark Anders,
  • Timotei Centea,
  • Steven Nutt

DOI
https://doi.org/10.1080/20550340.2020.1800194
Journal volume & issue
Vol. 6, no. 3
pp. 127 – 141

Abstract

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During co-cure of honeycomb core sandwich panels, composite facesheets are cured and concurrently bonded to the core, introducing complex interactions that can lead to unsatisfactory bond-line formation. In this work, an in situ co-cure fixture is employed to directly observe the adhesive during processing and identify defect formation mechanisms specific to the bond-line. Relating fillet quality to imposed core pressure reveals the non-linear effect of core pressure. High pressures suppressed voids; intermediate pressures resulted in void growth and entrapment within deformed fillets; and low pressures led to void rupture and small, irregular fillets. Experimental results aided in developing a model to predict void growth in the bond-line. The findings presented here provide insight into the physics controlling the adhesive bond-line evolution during co-cure, which can inform manufacturing decisions to produce higher-quality honeycomb core sandwich structures.

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