Simulation and experimental validation of gaps and bridging in the automated fiber placement process

Roland Lichtinger; Javier Lacalle; Roland Hinterhölzl; Uwe Beier; Klaus Drechsler

doi:10.1515/secm-2013-0158

Simulation and experimental validation of gaps and bridging in the automated fiber placement process

Roland Lichtinger, Javier Lacalle, Roland Hinterhölzl, Uwe Beier, Klaus Drechsler

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

38 Zitate (Scopus)

Abstract

With the increasing demand for carbon fiber-reinforced parts in the aerospace industry, automated manufacturing methods such as automated fiber placement (AFP) are being established. To utilize AFP's strong potential on multiple-curved surfaces such as chamfered sandwich structures, it is important to analyze and control emerging effects like gaps, bridging, and steering. An analytical relationship between path generation and effects of the AFP manufacture of chamfered sandwich structures have been found with good agreement to experimental tests. The deformation behavior of an industrially used compaction roller has been analyzed numerically and experimentally. The results show a nonuniform deformation behavior on flat and curved surfaces and the limited deformability of the compaction roller.

Originalsprache	Englisch
Seiten (von - bis)	131-148
Seitenumfang	18
Fachzeitschrift	Science and Engineering of Composite Materials
Jahrgang	22
Ausgabenummer	2
DOIs	https://doi.org/10.1515/secm-2013-0158
Publikationsstatus	Veröffentlicht - 1 März 2015
Extern publiziert	Ja

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title = "Simulation and experimental validation of gaps and bridging in the automated fiber placement process",

abstract = "With the increasing demand for carbon fiber-reinforced parts in the aerospace industry, automated manufacturing methods such as automated fiber placement (AFP) are being established. To utilize AFP's strong potential on multiple-curved surfaces such as chamfered sandwich structures, it is important to analyze and control emerging effects like gaps, bridging, and steering. An analytical relationship between path generation and effects of the AFP manufacture of chamfered sandwich structures have been found with good agreement to experimental tests. The deformation behavior of an industrially used compaction roller has been analyzed numerically and experimentally. The results show a nonuniform deformation behavior on flat and curved surfaces and the limited deformability of the compaction roller.",

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AU - Lichtinger, Roland

AU - Lacalle, Javier

AU - Hinterhölzl, Roland

AU - Beier, Uwe

AU - Drechsler, Klaus

PY - 2015/3/1

Y1 - 2015/3/1

N2 - With the increasing demand for carbon fiber-reinforced parts in the aerospace industry, automated manufacturing methods such as automated fiber placement (AFP) are being established. To utilize AFP's strong potential on multiple-curved surfaces such as chamfered sandwich structures, it is important to analyze and control emerging effects like gaps, bridging, and steering. An analytical relationship between path generation and effects of the AFP manufacture of chamfered sandwich structures have been found with good agreement to experimental tests. The deformation behavior of an industrially used compaction roller has been analyzed numerically and experimentally. The results show a nonuniform deformation behavior on flat and curved surfaces and the limited deformability of the compaction roller.

AB - With the increasing demand for carbon fiber-reinforced parts in the aerospace industry, automated manufacturing methods such as automated fiber placement (AFP) are being established. To utilize AFP's strong potential on multiple-curved surfaces such as chamfered sandwich structures, it is important to analyze and control emerging effects like gaps, bridging, and steering. An analytical relationship between path generation and effects of the AFP manufacture of chamfered sandwich structures have been found with good agreement to experimental tests. The deformation behavior of an industrially used compaction roller has been analyzed numerically and experimentally. The results show a nonuniform deformation behavior on flat and curved surfaces and the limited deformability of the compaction roller.

KW - bridging

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KW - fiber placement

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Simulation and experimental validation of gaps and bridging in the automated fiber placement process

Abstract

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