A.G. Magalhães scite author profile

Drilling of carbon fibre/epoxy laminates is usually carried out using standard drills. However, it is necessary to adapt the processes and/or tooling as the risk of delamination, or other damages, is high. These problems can affect mechanical properties of produced parts, therefore, lower reliability. In this paper, four different drills-three commercial and a special step (prototype)-are compared in terms of thrust force during drilling and delamination. In order to evaluate damage, enhanced radiography is applied. The resulting images were then computational processed using a previously developed image processing and analysis platform. Results show that the prototype drill had encouraging results in terms of maximum thrust force and delamination reduction. Furthermore, it is possible to state that a correct choice of drill geometry, particularly the use of a pilot hole, a conservative cutting speed-53 m/min-and a low feed rate-0.025 mm/rev-can help to prevent delamination.

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Mode III interlaminar fracture of carbon/epoxy laminates using the edge crack torsion (ECT) test

Morais

Péreira

Moura

et al. 2009

Composites Science and Technology

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The mode III interlaminar fracture of carbon/epoxy laminates was evaluated with the edge crack torsion (ECT) test. Three-dimensional finite element analyses were performed in order to select two specimen geometries and an experimental data reduction scheme. Test results showed considerable non-linearity before the maximum load point and a significant R-curve effect. These features prevented an accurate definition of the initiation point. Nevertheless, analyses of non-linearity zones showed two likely initiation points corresponding to G IIIc values between 850 and 1100 J/m 2 for both specimen geometries. Although any of these values is realistic, the range is too broad, thus showing the limitations of the ECT test and the need for further research.

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Single-Lap Joints of Similar and Dissimilar Adherends Bonded with an Acrylic Adhesive

Pinto¹,

Magalhães²,

Campilho

et al. 2009

The Journal of Adhesion

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A straightforward method to obtain the cohesive laws of bonded joints under mode I loading

Moura

Gonçalves

Magalhães³

2012

International Journal of Adhesion and Adhesives

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Keywords:Bonded joints Cohesive laws Mode I Double cantilever beam test a b s t r a c t A simple procedure to measure the cohesive laws of bonded joints under mode I loading using the double cantilever beam test is proposed. The method only requires recording the applied loaddisplacement data and measuring the crack opening displacement at its tip in the course of the experimental test. The strain energy release rate is obtained by a procedure involving the Timoshenko beam theory, the specimen's compliance and the crack equivalent concept. Following the proposed approach the influence of the fracture process zone is taken into account which is fundamental for an accurate estimation of the failure process details. The cohesive law is obtained by differentiation of the strain energy release rate as a function of the crack opening displacement. The model was validated numerically considering three representative cohesive laws. Numerical simulations using finite element analysis including cohesive zone modeling were performed. The good agreement between the inputted and resulting laws for all the cases considered validates the model. An experimental confirmation was also performed by comparing the numerical and experimental load-displacement curves. The numerical load-displacement curves were obtained by adjusting typical cohesive laws to the ones measured experimentally following the proposed approach and using finite element analysis including cohesive zone modeling. Once again, good agreement was obtained in the comparisons thus demonstrating the good performance of the proposed methodology.

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Simulation of mechanical behaviour of composite bonded joints containing strip defects

Moura

Daniaud

Magalhães

2006

International Journal of Adhesion and Adhesives

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A.G. Magalhães

Delamination analysis of carbon fibre reinforced laminates: Evaluation of a special step drill

Mode III interlaminar fracture of carbon/epoxy laminates using the edge crack torsion (ECT) test

Single-Lap Joints of Similar and Dissimilar Adherends Bonded with an Acrylic Adhesive

A straightforward method to obtain the cohesive laws of bonded joints under mode I loading

Simulation of mechanical behaviour of composite bonded joints containing strip defects

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