Auswirkungen lokaler garnlücken auf die mechanischen eigenschaften geflochtener kohlenstofffaser-kunststoff-verbunde

Andreas Mierzwa; Christoph Ebel; Klaus Drechsler

doi:10.3139/O999.02022018

Auswirkungen lokaler garnlücken auf die mechanischen eigenschaften geflochtener kohlenstofffaser-kunststoff-verbunde

Andreas Mierzwa, Christoph Ebel, Klaus Drechsler

Lehrstuhl für Carbon Composites

Technische Universität München

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

4 Zitate (Scopus)

Abstract

This study bases on the analysis of yarn gaps which typically occur during the production of braids due to deviation of process parameters. For mechanical analysis comparable yarn gaps were placed in samples made of defect-free braids. The yarn gap orientation in the samples was changed in several steps relative to the load direction. Samples were fabricated via VAP and RTM and tested in tension, compression and shear. Depending on the impregnation method and the yarn gap orientation the influences on mechanical performance differ. The results vary relative to the gap-free reference from slight differences till a reduction of 36% of the tensile strength. This drop is explained by a local increase of yarn undulation.

Titel in Übersetzung	Influence of yarn gaps on the mechanical performance of braided carbon fiber reinforced plastics
Originalsprache	Deutsch
Seiten (von - bis)	146-173
Seitenumfang	28
Fachzeitschrift	Zeitschrift Kunststofftechnik/Journal of Plastics Technology
Jahrgang	2018
Ausgabenummer	2
DOIs	https://doi.org/10.3139/O999.02022018
Publikationsstatus	Veröffentlicht - 2018

Schlagwörter

Biaxial carbon fiber braids
Defects
Mechanical properties
Resin-transfer-molding
Vacuum-assisted-process

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10.3139/O999.02022018

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title = "Auswirkungen lokaler garnl{\"u}cken auf die mechanischen eigenschaften geflochtener kohlenstofffaser-kunststoff-verbunde",

abstract = "This study bases on the analysis of yarn gaps which typically occur during the production of braids due to deviation of process parameters. For mechanical analysis comparable yarn gaps were placed in samples made of defect-free braids. The yarn gap orientation in the samples was changed in several steps relative to the load direction. Samples were fabricated via VAP and RTM and tested in tension, compression and shear. Depending on the impregnation method and the yarn gap orientation the influences on mechanical performance differ. The results vary relative to the gap-free reference from slight differences till a reduction of 36% of the tensile strength. This drop is explained by a local increase of yarn undulation.",

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AU - Ebel, Christoph

AU - Drechsler, Klaus

PY - 2018

Y1 - 2018

N2 - This study bases on the analysis of yarn gaps which typically occur during the production of braids due to deviation of process parameters. For mechanical analysis comparable yarn gaps were placed in samples made of defect-free braids. The yarn gap orientation in the samples was changed in several steps relative to the load direction. Samples were fabricated via VAP and RTM and tested in tension, compression and shear. Depending on the impregnation method and the yarn gap orientation the influences on mechanical performance differ. The results vary relative to the gap-free reference from slight differences till a reduction of 36% of the tensile strength. This drop is explained by a local increase of yarn undulation.

AB - This study bases on the analysis of yarn gaps which typically occur during the production of braids due to deviation of process parameters. For mechanical analysis comparable yarn gaps were placed in samples made of defect-free braids. The yarn gap orientation in the samples was changed in several steps relative to the load direction. Samples were fabricated via VAP and RTM and tested in tension, compression and shear. Depending on the impregnation method and the yarn gap orientation the influences on mechanical performance differ. The results vary relative to the gap-free reference from slight differences till a reduction of 36% of the tensile strength. This drop is explained by a local increase of yarn undulation.

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KW - Defects

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KW - Resin-transfer-molding

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Auswirkungen lokaler garnlücken auf die mechanischen eigenschaften geflochtener kohlenstofffaser-kunststoff-verbunde

Abstract

Schlagwörter

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