Strain Acquisition Framework and Novel Bending Evaluation Formulation for Compression-Loaded Composites Using Digital Image Correlation

Consistent and reproducible data are key for material characterization. This work presents digital image correlation (DIC) strain acquisition guidelines for compression-loaded carbon fiber composites. Additionally, a novel bending criterion is formulated which builds up on the DIC strain data so tha...

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Veröffentlicht in:	Materials 2021-10, Vol.14 (20), p.5931
Hauptverfasser:	D’haen, Jonas J. A., May, Michael, Knoll, Octavian, Kerscher, Stefan, Hiermaier, Stefan
Format:	Artikel
Sprache:	eng
Schlagworte:	Bend tests Carbon fibers Clamps Composite materials Compression loads Compression tests Criteria Digital imaging Fiber composites Guidelines Image acquisition Image compression Laminates Measurement techniques Strain gauges
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container_title	Materials
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creator	D’haen, Jonas J. A. May, Michael Knoll, Octavian Kerscher, Stefan Hiermaier, Stefan
description	Consistent and reproducible data are key for material characterization. This work presents digital image correlation (DIC) strain acquisition guidelines for compression-loaded carbon fiber composites. Additionally, a novel bending criterion is formulated which builds up on the DIC strain data so that it is able to completely replace state-of-the-art tactile strain devices. These guidelines are derived from a custom test setup that simultaneously investigates the front and side view of the specimen. They reflect both an observation and post-processing standpoint. It is found that the DIC-based strain progress matches closely with state-of-the-art strain gauges up to failure initiation. The new bending evaluation criterion allows the bending state—and therefore, the validity of the compression test—to be monitored analogously to the methodology defined in the standards. Furthermore, the new bending criterion eliminates a specific bending mode, caused by an offset of clamps, which cannot be detected by the traditional strain gauge-based monitoring approach.
doi_str_mv	10.3390/ma14205931
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subjects	Bend tests Carbon fibers Clamps Composite materials Compression loads Compression tests Criteria Digital imaging Fiber composites Guidelines Image acquisition Image compression Laminates Measurement techniques Strain gauges
title	Strain Acquisition Framework and Novel Bending Evaluation Formulation for Compression-Loaded Composites Using Digital Image Correlation
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