Ermias Gebrekidan Koricho scite author profile

Damage induced in polymer composites by various impacts must be evaluated to predict a component’s post-impact strength and residual lifetime, especially when impacts occur in structures related to human safety (in aircraft, for example). X-ray tomography is the conventional standard to study an internal structure with high resolution. However, it is of little use when the impacted area cannot be extracted from a structure. In addition, X-ray tomography is expensive and time-consuming. Recently, we have demonstrated that a kHz-rate laser-ultrasound (LU) scanner is very efficient both for locating large defects and evaluating the material structure. Here, we show that high-quality images of damage produced by the LU scanner in impacted carbon-fiber reinforced polymer (CFRP) composites are similar to those produced by X-ray tomograms; but they can be obtained with only single-sided access to the object under study. Potentially, the LU method can be applied to large components in-situ.

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An experimental and finite element study of the transverse bending behaviour of CFRP composite T-joints in vehicle structures

Koricho¹,

Belingardi²

2015

Composites Part B: Engineering

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Innovative tailored fiber placement technique for enhanced damage resistance in notched composite laminate

Koricho¹,

Khomenko²,

Fristedt³

et al. 2015

Composite Structures

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Adhesive joining technologies activated by electro-magnetic external trims

Verna

Cannavaro

Brunella

et al. 2013

International Journal of Adhesion and Adhesives

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Implementation of composite and recyclable thermoplastic materials for automotive bumper subsystem

Belingardi

Koricho²,

Martorana

2014

IJAUTOC

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