2021
DOI: 10.3390/jcs5090225
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Powder Epoxy for One-Shot Cure, Out-of-Autoclave Applications: Lap Shear Strength and Z-Pinning Study

Abstract: Large composite structures manufactured out-of-autoclave require the assembly and bonding of multiple parts. A one-shot cure manufacturing method is demonstrated using powder epoxy. Lap shear plates were manufactured from powder epoxy and glass fiber-reinforced plastic with four different bonding cases were assessed: secondary bonding using standard adhesive film, secondary bonding using powder epoxy, co-curing, and co-curing plus a novel Z-pinning method. This work investigates the lap shear strength of the f… Show more

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Cited by 5 publications
(3 citation statements)
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“…The initial samples using a 12-layer 5HS lay-up with 0-90 stacking sequence demonstrated a stick-slip propagation and the shallow pin angle resulted in sub-optimal mode 1 performance. In a collaborative work with Edinburgh University [20], samples for lap-shear tests were constructed. The short overlap of the pinned region necessitated a change in the methods used.…”
Section: Refinement Of Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…The initial samples using a 12-layer 5HS lay-up with 0-90 stacking sequence demonstrated a stick-slip propagation and the shallow pin angle resulted in sub-optimal mode 1 performance. In a collaborative work with Edinburgh University [20], samples for lap-shear tests were constructed. The short overlap of the pinned region necessitated a change in the methods used.…”
Section: Refinement Of Methodsmentioning
confidence: 99%
“…Finally, is the investigation of alternate pin construction, in particular the polymer element. One candidate for this which may prove beneficial is the use of the powder epoxy investigated by Noble et al [20]. An Epoxy based pin, if combined with a laminate constructed of the same epoxy, might allow for the construction of through thickness reinforced preforms that can act as a ‘dry pre-preg’ without the storage requirements associated with conventional pre-preg materials.…”
Section: Further Workmentioning
confidence: 99%
“…This feature provides versatility in the production phase by allowing the potential of separating the impregnation and curing of the composite parts. In addition, it is possible to co-cure different composite parts using powder-epoxy [13] instead of using adhesives [7]. Finally, as the powder epoxy is solid and stable at room temperature, storage costs are substantially lower than standard prepreg systems.…”
Section: Experimental Section 21 Materialsmentioning
confidence: 99%