Morphology of ply drops in thermoplastic composite materials manufactured using laser-assisted tape placement

Daniël Peeters; Michael Deane; Ronan O'Higgins; Paul M. Weaver

doi:10.1016/j.compstruct.2020.112638

Morphology of ply drops in thermoplastic composite materials manufactured using laser-assisted tape placement

Daniël Peeters, Michael Deane, Ronan O'Higgins^*, Paul M. Weaver

^*Corresponding author for this work

Aerospace Manufacturing Technologies

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

Mechanical properties of composite laminates can be tuned by either tailoring ply orientations or by using ply drops to change thickness profiles. The latter cause resin-rich pockets to form in thermoset composites that are autoclave cured after lay-down. This paper focuses on the morphology of ply drop regions with carbon fibre thermoplastic composites manufactured using in-situ consolidation with laser-assisted tape placement. Our work shows that when laying a 0° ply (parallel to the ply drop) over a ply drop then the ply readily conforms to the shape of the ply drop, eliminating voids. However, when a 90° ply covers a ply drop, the processing direction affects behaviour. When the ply ascends a ply drop, a void is created. On the other hand, when the ply descends a ply drop, the substrate changes its shape due to combined laser heat and roller pressure, leading to significantly smaller voids.

Original language	English
Article number	112638
Number of pages	18
Journal	Composite Structures
Volume	251
DOIs	https://doi.org/10.1016/j.compstruct.2020.112638
Publication status	Published - 1 Nov 2020

Keywords

Automated fiber placement
Defects
Tape placement
thermoplastic resin

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10.1016/j.compstruct.2020.112638

PaperPlyDropsRevisionNoHighlightsAccepted author manuscript, 2.4 MBLicence: CC BY-NC-ND

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title = "Morphology of ply drops in thermoplastic composite materials manufactured using laser-assisted tape placement",

abstract = "Mechanical properties of composite laminates can be tuned by either tailoring ply orientations or by using ply drops to change thickness profiles. The latter cause resin-rich pockets to form in thermoset composites that are autoclave cured after lay-down. This paper focuses on the morphology of ply drop regions with carbon fibre thermoplastic composites manufactured using in-situ consolidation with laser-assisted tape placement. Our work shows that when laying a 0° ply (parallel to the ply drop) over a ply drop then the ply readily conforms to the shape of the ply drop, eliminating voids. However, when a 90° ply covers a ply drop, the processing direction affects behaviour. When the ply ascends a ply drop, a void is created. On the other hand, when the ply descends a ply drop, the substrate changes its shape due to combined laser heat and roller pressure, leading to significantly smaller voids.",

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AU - Peeters, Daniël

AU - Deane, Michael

AU - O'Higgins, Ronan

AU - Weaver, Paul M.

PY - 2020/11/1

Y1 - 2020/11/1

N2 - Mechanical properties of composite laminates can be tuned by either tailoring ply orientations or by using ply drops to change thickness profiles. The latter cause resin-rich pockets to form in thermoset composites that are autoclave cured after lay-down. This paper focuses on the morphology of ply drop regions with carbon fibre thermoplastic composites manufactured using in-situ consolidation with laser-assisted tape placement. Our work shows that when laying a 0° ply (parallel to the ply drop) over a ply drop then the ply readily conforms to the shape of the ply drop, eliminating voids. However, when a 90° ply covers a ply drop, the processing direction affects behaviour. When the ply ascends a ply drop, a void is created. On the other hand, when the ply descends a ply drop, the substrate changes its shape due to combined laser heat and roller pressure, leading to significantly smaller voids.

AB - Mechanical properties of composite laminates can be tuned by either tailoring ply orientations or by using ply drops to change thickness profiles. The latter cause resin-rich pockets to form in thermoset composites that are autoclave cured after lay-down. This paper focuses on the morphology of ply drop regions with carbon fibre thermoplastic composites manufactured using in-situ consolidation with laser-assisted tape placement. Our work shows that when laying a 0° ply (parallel to the ply drop) over a ply drop then the ply readily conforms to the shape of the ply drop, eliminating voids. However, when a 90° ply covers a ply drop, the processing direction affects behaviour. When the ply ascends a ply drop, a void is created. On the other hand, when the ply descends a ply drop, the substrate changes its shape due to combined laser heat and roller pressure, leading to significantly smaller voids.

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Morphology of ply drops in thermoplastic composite materials manufactured using laser-assisted tape placement

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