Cover for Advances in the Bonded Composite Repair of Metallic Aircraft Structure

Advances in the Bonded Composite Repair of Metallic Aircraft Structure

Book2002

Edited by:

A.A. Baker, L.R.F. Rose and R. Jones

Advances in the Bonded Composite Repair of Metallic Aircraft Structure

Book2002

 

Cover for Advances in the Bonded Composite Repair of Metallic Aircraft Structure

Edited by:

A.A. Baker, L.R.F. Rose and R. Jones

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Book description

The availability of efficient and cost-effective technologies to repair or extend the life of aging military airframes is becoming a critical requirement in most countries around t ... read full description

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    Index

    Pages 1051-1061

About the book

Description

The availability of efficient and cost-effective technologies to repair or extend the life of aging military airframes is becoming a critical requirement in most countries around the world, as new aircraft becoming prohibitively expensive and defence budgets shrink. To a lesser extent a similar situation is arising with civil aircraft, with falling revenues and the high cost of replacement aircraft.



This book looks at repair/reinforcement technology, which is based on the use of adhesively bonded fibre composite patches or doublers and can provide cost-effective life extension in many situations. From the scientific and engineering viewpoint, whilst simple in concept, this technology can be quite challenging particularly when used to repair primary structure. This is due to it being based on interrelated inputs from the fields of aircraft design, solid mechanics, fibre composites, structural adhesive bonding, fracture mechanics and metal fatigue. The technologies of non-destructive inspection (NDI) and, more recently smart materials, are also included. Operational issues are equally critical, including airworthiness certification, application technology (including health and safety issues), and training.



Including contributions from leading experts in Canada, UK, USA and Australia, this book discusses most of these issues and the latest developments. Most importantly, it contains real histories of application of this technology to both military and civil aircraft.

The availability of efficient and cost-effective technologies to repair or extend the life of aging military airframes is becoming a critical requirement in most countries around the world, as new aircraft becoming prohibitively expensive and defence budgets shrink. To a lesser extent a similar situation is arising with civil aircraft, with falling revenues and the high cost of replacement aircraft.



This book looks at repair/reinforcement technology, which is based on the use of adhesively bonded fibre composite patches or doublers and can provide cost-effective life extension in many situations. From the scientific and engineering viewpoint, whilst simple in concept, this technology can be quite challenging particularly when used to repair primary structure. This is due to it being based on interrelated inputs from the fields of aircraft design, solid mechanics, fibre composites, structural adhesive bonding, fracture mechanics and metal fatigue. The technologies of non-destructive inspection (NDI) and, more recently smart materials, are also included. Operational issues are equally critical, including airworthiness certification, application technology (including health and safety issues), and training.



Including contributions from leading experts in Canada, UK, USA and Australia, this book discusses most of these issues and the latest developments. Most importantly, it contains real histories of application of this technology to both military and civil aircraft.

Details

ISBN

978-0-08-042699-0

Language

English

Published

2002

Copyright

Copyright © 2002 Elsevier Ltd. All rights reserved

Imprint

Elsevier Science

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Editors

A.A. Baker

Defence Science and Technology Organisation, Air Vehicles Division, Victoria, Australia

L.R.F. Rose

Department of Defence, Defence Science and Technology Organisation, Air Vehicles Division, Victoria, Australia

R. Jones

Mechanical Engineering Department, Monash University, Victoria, Australia