TY - GEN
T1 - Effect of preheat temperature on the formability of carbon fibre/PEEK composites
AU - Davey, Sebastian
AU - Das, Raj
AU - Cantwell, Wesley
AU - Kalyanasundaram, Shankar
PY - 2012
Y1 - 2012
N2 - Thermoplastic composites are currently utilised in applications where high specific stiffness and strength is required. However, current manufacturing processes are time consuming and costly. For these materials to be utilised in a wide range of applications, rapid forming mechanisms must be developed. In this study, the formability of carbon fibre reinforced PEEK was examined in stamp forming processes. Composite blanks created from plain weave carbon fabric in a PEEK matrix were formed until failure at various temperatures in an open-die system using a hemispherical punch. Monolithic aluminium samples were formed for the sake of comparison. During forming, real-time strain measurements were taken from the lower surface of the blanks and strain distributions were plotted. Results showed that CF/PEEK experiences a much lower maximum strain than aluminium at any given depth, allowing it to form without inducing failure in the carbon fibres. High temperatures were found to cause large shear strains. This caused a slight reduction in maximum strain in the fibre direction of the composite, slightly increasing the forming depth. A complete understanding of the forming behaviour of CF/PEEK could enable rapid forming processes to be implemented, thereby allowing this material to be utilised in a wide variety of applications.
AB - Thermoplastic composites are currently utilised in applications where high specific stiffness and strength is required. However, current manufacturing processes are time consuming and costly. For these materials to be utilised in a wide range of applications, rapid forming mechanisms must be developed. In this study, the formability of carbon fibre reinforced PEEK was examined in stamp forming processes. Composite blanks created from plain weave carbon fabric in a PEEK matrix were formed until failure at various temperatures in an open-die system using a hemispherical punch. Monolithic aluminium samples were formed for the sake of comparison. During forming, real-time strain measurements were taken from the lower surface of the blanks and strain distributions were plotted. Results showed that CF/PEEK experiences a much lower maximum strain than aluminium at any given depth, allowing it to form without inducing failure in the carbon fibres. High temperatures were found to cause large shear strains. This caused a slight reduction in maximum strain in the fibre direction of the composite, slightly increasing the forming depth. A complete understanding of the forming behaviour of CF/PEEK could enable rapid forming processes to be implemented, thereby allowing this material to be utilised in a wide variety of applications.
KW - Carbon fibre reinforced polymers
KW - Real-time strain measurements
KW - Stamp forming
KW - Thermoplastic composites
UR - http://www.scopus.com/inward/record.url?scp=84907397416&partnerID=8YFLogxK
M3 - Conference contribution
SN - 9781922107619
T3 - Advances in Applied Mechanics Research, Conference Proceedings - 7th Australasian Congress on Applied Mechanics, ACAM 2012
SP - 953
EP - 961
BT - Advances in Applied Mechanics Research, Conference Proceedings - 7th Australasian Congress on Applied Mechanics, ACAM 2012
PB - National Committee on Applied Mechanics
T2 - 7th Australasian Congress on Applied Mechanics, ACAM 2012
Y2 - 9 December 2012 through 12 December 2012
ER -