Influence of compaction and curing in the Automated Fiber Placement Process on the mechanical performance of composite laminates

Sylvester Vogl; Ralf Knott; Silvano Sommacal; Paul Compston; Klaus Drechsler

doi:10.1016/j.compstruct.2023.117826

Influence of compaction and curing in the Automated Fiber Placement Process on the mechanical performance of composite laminates

Sylvester Vogl, Ralf Knott, Silvano Sommacal, Paul Compston, Klaus Drechsler

Chair of Carbon Composites

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

2 Scopus citations

Abstract

This paper investigates the effect of compaction and curing states on the mechanical properties and void content of AFP-manufactured laminates. For the mechanical characterization, tensile tests, 4-point-bending tests and interlaminar shear strength (ILSS) tests were applied. The internal structure was evaluated via micro CT. For the surface structure evaluation, an optical profilometer was used. The void content was determined via segmentation of the micro CT images. The paper is subdivided into the description of the applied materials and methods, the results and their discussion and a conclusion. The study showcases the potential of AFP-manufactured aerospace composites to attain high-quality results even without the need for an autoclave, making them well-suited for unmanned applications.

Original language	English
Article number	117826
Journal	Composite Structures
Volume	330
DOIs	https://doi.org/10.1016/j.compstruct.2023.117826
State	Published - 15 Feb 2024

Keywords

Automated fiber placement
Compaction
Mechanical characterization
TS-AFP
Thermoset

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10.1016/j.compstruct.2023.117826

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title = "Influence of compaction and curing in the Automated Fiber Placement Process on the mechanical performance of composite laminates",

abstract = "This paper investigates the effect of compaction and curing states on the mechanical properties and void content of AFP-manufactured laminates. For the mechanical characterization, tensile tests, 4-point-bending tests and interlaminar shear strength (ILSS) tests were applied. The internal structure was evaluated via micro CT. For the surface structure evaluation, an optical profilometer was used. The void content was determined via segmentation of the micro CT images. The paper is subdivided into the description of the applied materials and methods, the results and their discussion and a conclusion. The study showcases the potential of AFP-manufactured aerospace composites to attain high-quality results even without the need for an autoclave, making them well-suited for unmanned applications.",

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AU - Vogl, Sylvester

AU - Knott, Ralf

AU - Sommacal, Silvano

AU - Compston, Paul

AU - Drechsler, Klaus

PY - 2024/2/15

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N2 - This paper investigates the effect of compaction and curing states on the mechanical properties and void content of AFP-manufactured laminates. For the mechanical characterization, tensile tests, 4-point-bending tests and interlaminar shear strength (ILSS) tests were applied. The internal structure was evaluated via micro CT. For the surface structure evaluation, an optical profilometer was used. The void content was determined via segmentation of the micro CT images. The paper is subdivided into the description of the applied materials and methods, the results and their discussion and a conclusion. The study showcases the potential of AFP-manufactured aerospace composites to attain high-quality results even without the need for an autoclave, making them well-suited for unmanned applications.

AB - This paper investigates the effect of compaction and curing states on the mechanical properties and void content of AFP-manufactured laminates. For the mechanical characterization, tensile tests, 4-point-bending tests and interlaminar shear strength (ILSS) tests were applied. The internal structure was evaluated via micro CT. For the surface structure evaluation, an optical profilometer was used. The void content was determined via segmentation of the micro CT images. The paper is subdivided into the description of the applied materials and methods, the results and their discussion and a conclusion. The study showcases the potential of AFP-manufactured aerospace composites to attain high-quality results even without the need for an autoclave, making them well-suited for unmanned applications.

KW - Automated fiber placement

KW - Compaction

KW - Mechanical characterization

KW - TS-AFP

KW - Thermoset

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Influence of compaction and curing in the Automated Fiber Placement Process on the mechanical performance of composite laminates

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Keywords

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