Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based Modelling

Fibre metal laminates (FML) are significantly adopted in the aviation industry due to their convenient combination of specific strength, impact resistance and ductility. Drilling of such materials is a regular pre-requisite which enables assembly operations, typically through rivet joining. However,...

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Published in:Metals
Main Authors: Francisco Marques, Filipe G. A. Silva, Tiago E. F. Silva, Pedro A. R. Rosa, António T. Marques, Abílio M. P. de Jesus
Format: Article
Language:English
Published: MDPI AG 2022-07-01
Subjects:
fibre metal laminates
drilling
cutting tool
modelling
Online Access:https://www.mdpi.com/2075-4701/12/8/1262
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author Francisco Marques
Filipe G. A. Silva
Tiago E. F. Silva
Pedro A. R. Rosa
António T. Marques
Abílio M. P. de Jesus
author_facet Francisco Marques
Filipe G. A. Silva
Tiago E. F. Silva
Pedro A. R. Rosa
António T. Marques
Abílio M. P. de Jesus
author_sort Francisco Marques
collection DOAJ
container_title Metals
description Fibre metal laminates (FML) are significantly adopted in the aviation industry due to their convenient combination of specific strength, impact resistance and ductility. Drilling of such materials is a regular pre-requisite which enables assembly operations, typically through rivet joining. However, the hole-making operation is of increased complexity due to the dissimilarity of the involved materials, often resulting in defects (i.e., material interface delamination), which can significantly compromise the otherwise excellent fatigue strength. This work explores the potential of three different drill geometries, operating under variable cutting speeds and feeds on CFRP-AA laminates. In addition, the usage of sacrificial back support is investigated and cutting load, surface roughness and delamination extension are examined. In order to predict delamination occurrence, ADCB tests are performed, enabling the calculation of fracture energy threshold. Drill geometry presents a very significant influence on delamination occurrence. The usage of specific step-tools with secondary cutting edge showed superior performance. Despite its simplicity, the applied critical force threshold model was able to successfully predict interface delamination with good accuracy.
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spelling doaj-art-d8469abe901f4eaa83e63ea34e447cb72025-08-19T22:32:12ZengMDPI AGMetals2075-47012022-07-01128126210.3390/met12081262Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based ModellingFrancisco Marques0Filipe G. A. Silva1Tiago E. F. Silva2Pedro A. R. Rosa3António T. Marques4Abílio M. P. de Jesus5Palbit S.A., Product Development Department, 3854-908 Branca, PortugalINEGI, Faculty of Engineering, University of Porto, Rua Dr. Roberto Frias 400, 4200-465 Porto, PortugalINEGI, Faculty of Engineering, University of Porto, Rua Dr. Roberto Frias 400, 4200-465 Porto, PortugalIDMEC, Instituto Superior Tecnico, University of Lisbon, Avenida Rovisco Pais 1, 1049-001 Lisboa, PortugalINEGI, Faculty of Engineering, University of Porto, Rua Dr. Roberto Frias 400, 4200-465 Porto, PortugalINEGI, Faculty of Engineering, University of Porto, Rua Dr. Roberto Frias 400, 4200-465 Porto, PortugalFibre metal laminates (FML) are significantly adopted in the aviation industry due to their convenient combination of specific strength, impact resistance and ductility. Drilling of such materials is a regular pre-requisite which enables assembly operations, typically through rivet joining. However, the hole-making operation is of increased complexity due to the dissimilarity of the involved materials, often resulting in defects (i.e., material interface delamination), which can significantly compromise the otherwise excellent fatigue strength. This work explores the potential of three different drill geometries, operating under variable cutting speeds and feeds on CFRP-AA laminates. In addition, the usage of sacrificial back support is investigated and cutting load, surface roughness and delamination extension are examined. In order to predict delamination occurrence, ADCB tests are performed, enabling the calculation of fracture energy threshold. Drill geometry presents a very significant influence on delamination occurrence. The usage of specific step-tools with secondary cutting edge showed superior performance. Despite its simplicity, the applied critical force threshold model was able to successfully predict interface delamination with good accuracy.https://www.mdpi.com/2075-4701/12/8/1262fibre metal laminatesdrillingcutting toolmodelling
spellingShingle Francisco Marques
Filipe G. A. Silva
Tiago E. F. Silva
Pedro A. R. Rosa
António T. Marques
Abílio M. P. de Jesus
Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based Modelling
fibre metal laminates
drilling
cutting tool
modelling
title Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based Modelling
title_full Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based Modelling
title_fullStr Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based Modelling
title_full_unstemmed Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based Modelling
title_short Delamination of Fibre Metal Laminates Due to Drilling: Experimental Study and Fracture Mechanics-Based Modelling
title_sort delamination of fibre metal laminates due to drilling experimental study and fracture mechanics based modelling
topic fibre metal laminates
drilling
cutting tool
modelling
url https://www.mdpi.com/2075-4701/12/8/1262
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AT tiagoefsilva delaminationoffibremetallaminatesduetodrillingexperimentalstudyandfracturemechanicsbasedmodelling
AT pedroarrosa delaminationoffibremetallaminatesduetodrillingexperimentalstudyandfracturemechanicsbasedmodelling
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AT abiliompdejesus delaminationoffibremetallaminatesduetodrillingexperimentalstudyandfracturemechanicsbasedmodelling

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