Stretch forming studies on a fibre metal laminate based on a self-reinforcing polypropylene composite

Date

2012

Authors

Sexton, Anthony
Cantwell, Wesley J
Kalyanasundaram, Shankar

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

This paper investigates the room temperature formability of a fibre metal laminate system comprised of aluminium and a self-reinforcing polypropylene composite. Blanks of varying geometry were stretch formed over a hemispherical punch in a custom built stamping press. A real-time three-dimensional photogrammetric measuring system was used to acquire the evolution of surface strain and the strain at failure during forming. The results from this work illustrate that these advanced light weight material systems are amenable to mass production through stamp forming. A significant finding from this work is that these material systems can exhibit forming characteristics that are comparable and sometimes superior to metal forming.

Description

Keywords

Keywords: Experimental mechanics; Fibre Metal Laminates; Lightweight materials; Mass production; Material systems; Measuring systems; Polypropylene composite; Room temperature; Stamp forming; Stretch-forming; Surface strains; Composite structures; Manufacture; Meta 3D photogrammetry; Composite structures; Experimental mechanics; Fibre metal laminate; Manufacturing

Citation

Source

Composite Structures

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2037-12-31