Article | REF: AM5221 V1

Bonding composites: aerospace, automotive and railway construction

Author: Philippe COGNARD

Publication date: July 10, 2004

You do not have access to this resource.
Click here to request your free trial access!

Already subscribed? Log in!


Overview

Français

Read this article from a comprehensive knowledge base, updated and supplemented with articles reviewed by scientific committees.

Read the article

AUTHOR

  • Philippe COGNARD: Engineer from the École supérieure de physique et chimie de Paris (Paris School of Physics and Chemistry) - Court-appointed expert, - Former Sales Manager at Bostik Findley

 INTRODUCTION

The aeronautics industry has been a pioneer in the use of high-performance composites (based on carbon, Kevlar and glass fibers), often assembled by bonding, for several decades. This assembly method has in fact been used and developed for its efficiency, the strength of the joints and the lighter weight of the structures it provides. As a result, the aeronautics sector has been the source of numerous innovations, whether in the formulation of new adhesives, the development of application processes, bonded assembly testing methods or construction materials (honeycombs).

The use of composite materials in aircraft construction began around 1970. Since then, the proportion of composite parts has grown rapidly in number and importance, first on military aircraft, then on civil aircraft from the early 1980s.

The aeronautics sector remains an innovator in this field, and should be seen as a source of technology transfer to other industrial sectors, notably automotive, shipbuilding, armaments and mechanical engineering.

In the automotive sector, too, the number of composite parts has risen sharply since 1980.

One of the very first mass uses of composite parts in the automotive industry in Europe was the Renault Espace in 1984, in which all the body panels were made of composite materials — glass-fiber-reinforced polyester, — either compression-molded or injected — which were bonded or bolted with inserts to a metal skeleton body.

The old metal bumpers were replaced from 1972 onwards by SMC (Sheet Moulding Compound) bumpers, as on the Renault R 5, and these composite bumpers and bumpers then evolved into two-part composite parts with reinforcements assembled by gluing.

The use of plastic and composite parts necessitates assembly either by gluing, or by using metal inserts embedded in the resin, which can then be connected by screws and bolts.

The use of plastics and composites is also increasing in the rail transport sector, mainly in the metro, which implies the use of composite bonding in these sectors too.

Note :

Readers may wish to refer to article Bonding composites. Characteristics and choice of adhesives and , where you'll find technical information, lists of suppliers of adhesives, materials and services, standards and sources of information (websites, standards bodies and competence centers).

You do not have access to this resource.

Exclusive to subscribers. 97% yet to be discovered!

You do not have access to this resource.
Click here to request your free trial access!

Already subscribed? Log in!


The Ultimate Scientific and Technical Reference

A Comprehensive Knowledge Base, with over 1,200 authors and 100 scientific advisors
+ More than 10,000 articles and 1,000 how-to sheets, over 800 new or updated articles every year
From design to prototyping, right through to industrialization, the reference for securing the development of your industrial projects

This article is included in

Plastics and composites

This offer includes:

Knowledge Base

Updated and enriched with articles validated by our scientific committees

Services

A set of exclusive tools to complement the resources

Practical Path

Operational and didactic, to guarantee the acquisition of transversal skills

Doc & Quiz

Interactive articles with quizzes, for constructive reading

Subscribe now!

Ongoing reading
Bonding composites: aerospace, automotive and railway construction