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Gabriella Epasto
Gabriella Epasto
Dept. of Engineering, University of Messina
Email verificata su unime.it
Titolo
Citata da
Citata da
Anno
Collapse modes in aluminium honeycomb sandwich panels under bending and impact loading
V Crupi, G Epasto, E Guglielmino
International Journal of Impact Engineering 43, 6-15, 2012
2982012
Comparison of aluminium sandwiches for lightweight ship structures: Honeycomb vs. foam
V Crupi, G Epasto, E Guglielmino
Marine structures 30, 74-96, 2013
2742013
Lightweight sandwich structures for marine applications: a review
G Palomba, G Epasto, V Crupi
Mechanics of Advanced Materials and Structures 29 (26), 4839-4864, 2022
1842022
Static behavior of lattice structures produced via direct metal laser sintering technology
V Crupi, E Kara, G Epasto, E Guglielmino, H Aykul
Materials & Design 135, 246-256, 2017
1512017
In plane compressive response and crushing of foam filled aluminum honeycombs
H Mozafari, H Molatefi, V Crupi, G Epasto, E Guglielmino
Journal of Composite Materials 49 (26), 3215 – 3228, 2015
1052015
Single and double-layer honeycomb sandwich panels under impact loading
G Palomba, G Epasto, V Crupi, E Guglielmino
International Journal of Impact Engineering 121, 77-90, 2018
1012018
Prediction model for the impact response of glass fibre reinforced aluminium foam sandwiches
V Crupi, E Kara, G Epasto, E Guglielmino, H Aykul
International Journal of Impact Engineering 77, 97-107, 2015
982015
Ti-6Al-4V ELI microlattice structures manufactured by electron beam melting: Effect of unit cell dimensions and morphology on mechanical behaviour
G Epasto, G Palomba, D D'Andrea, E Guglielmino, S Di Bella, F Traina
Materials Science and Engineering: A 753, 31-41, 2019
782019
Influence of microstructure [alpha+ beta and beta] on very high cycle fatigue behaviour of Ti-6Al-4V alloy
V Crupi, G Epasto, E Guglielmino, A Squillace
International Journal of Fatigue 95, 64-75, 2017
722017
Finite element analysis of foam-filled honeycomb structures under impact loading and crashworthiness design
H Mozafari, S Khatami, H Molatefi, V Crupi, G Epasto, E Guglielmino
International journal of crashworthiness 21 (2), 148-160, 2016
722016
Collapse modes of aluminium honeycomb sandwich structures under fatigue bending loading
G Palomba, V Crupi, G Epasto
Thin-Walled Structures 145, 106363, 2019
712019
Evaluation of fire-damaged concrete using impact-echo method
G Epasto, E Proverbio, V Venturi
Materials and structures 43, 235-245, 2010
682010
Low-velocity impact strength of sandwich materials
V Crupi, G Epasto, E Guglielmino
Journal of Sandwich Structures & Materials 13 (4), 409-426, 2011
622011
Theoretical and experimental analysis for the impact response of glass fibre reinforced aluminium honeycomb sandwiches
V Crupi, E Kara, G Epasto, E Guglielmino, H Aykul
Journal of Sandwich Structures & Materials 20 (1), 42-69, 2018
582018
Impact response of aluminum foam sandwiches for light-weight ship structures
V Crupi, G Epasto, E Guglielmino
Metals 1 (1), 98-112, 2011
582011
Low-velocity impact behaviour of green epoxy biocomposite laminates reinforced by sisal fibers
C Militello, F Bongiorno, G Epasto, B Zuccarello
Composite Structures 253, 112744, 2020
502020
Computed tomography-based reconstruction and finite element modelling of honeycomb sandwiches under low-velocity impacts
V Crupi, G Epasto, E Guglielmino, H Mozafari, S Najafian
Journal of Sandwich Structures & Materials 16 (4), 377-397, 2014
482014
Laser ultrasonics inspection for defect evaluation on train wheel
N Montinaro, G Epasto, D Cerniglia, E Guglielmino
NDT & E International 107, 102145, 2019
472019
Fatigue analysis of marine welded joints by means of DIC and IR images during static and fatigue tests
P Corigliano, G Epasto, E Guglielmino, G Risitano
Engineering Fracture Mechanics 183, 26-38, 2017
472017
Experimental investigation on Iroko wood used in shipbuilding
V Bucci, P Corigliano, V Crupi, G Epasto, E Guglielmino, A Marinò
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of …, 2017
402017
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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