L.B. Vogelesang scite author profile

Fibre metal laminates were developed at Delft University during the last two decades as a family of new hybrid materials consisting of bonded thin metal sheets and fibre/adhesive layers. This laminated structure provides the material with excellent fatigue, impact and damage tolerance characteristics and a low density. While the 20 per cent weight reduction was the prime driver behind the development of this new family of materials, it turns out that additional benefits like cost reduction and an improved safety level have become more and more important. The combination of these aspects in one material makes fibre metal laminates a strong candidate material for fuselage skin structures of the new generation of high capacity aircraft. The focus on this application currently leads to industrialization and qualification that makes this material available to the aircraft designer.

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Determination of residual stresses in aluminum-alloy sheet material

Hospers

Vogelesang

1975

Experimental Mechanics

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ARALL: A materials challenge for the next generation of aircraft

Vogelesang

Gunnink

1986

Materials & Design

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Environmental Effects on Fatigue Fracture Mode Transitions Observed in Aluminium Alloys

Vogelesang

Schijve

1980

Fat Frac Eng Mat Struct

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Fatigue crack propagation tests were carried out in different environments on 7075-T6 and 2024-T3 centre-cracked sheet specimens. Observations were made on the macroscopic transition from tensile mode to shear mode. The transition is suppressed by an aggressive environment, whereas it is promoted by an inert environment. As a consequence there is no unique correlation between the state of stress and the mode of cracking. Both the state of stress and the environment have a significant effect on the mode of cracking. A simple model for the effect of environment on fatigue crack growth is presented. The implications for crack growth under corrosion fatigue conditions are discussed. a daldn AK R t 0 7 0 c r

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Structural adhesive bonded joints in engineering – drafting design rules

Straalen

Wardenier

Vogelesang

et al. 1998

International Journal of Adhesion and Adhesives

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Development of a new hybrid material (ARALL) for aircraft structures

Vogelesang¹

1983

Ind. Eng. Chem. Prod. Res. Dev.

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A new material for aircraft structures with several promising properties is described. The material is obtained by the adhesive bonding of a number of thin aluminum alloy sheets and aramid layers to produce an aramid reinforced aluminum laminate (ARALL). ARALL shows very favorable fatigue crack growth properties and has a high tensile yield strength. This is especially true if suitable residual stresses are introduced into a laminate with an optimum thickness of metal sheets. In spite of the use of structural fibers in the laminates, nearly all advantages of metals over pure composites are preserved such as plasticity, impact strength, formability, and easy machining.

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Glare and Aircraft Safety

Vogelesang¹,

Vlot²,

Gunnink³

2020

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L.B. Vogelesang

Development of fibre metal laminates for advanced aerospace structures

Towards application of fibre metal laminates in large aircraft

Determination of residual stresses in aluminum-alloy sheet material

ARALL: A materials challenge for the next generation of aircraft

Environmental Effects on Fatigue Fracture Mode Transitions Observed in Aluminium Alloys

Structural adhesive bonded joints in engineering – drafting design rules

Development of a new hybrid material (ARALL) for aircraft structures

Glare and Aircraft Safety

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