Output details
12 - Aeronautical, Mechanical, Chemical and Manufacturing Engineering
University of Sheffield : A - Mechanical engineering and Advanced manufacturing
Article title
Void growth and coalescence modelling in AA2050 using the Rousselier model
Type
D - Journal article
Title of journal
International Journal of Damage Mechanics
Article number
-
Volume number
22
Issue number
2
First page of article
219
ISSN of journal
15307921
Year of publication
2012
URL
-
Number of additional authors
2
Additional information
This paper describes a new physically-based damage model for metals that incorporates not only void nucleation and growth but also coalescence in a Cellular Automata - Finite Element (CAFE) Framework. This work funded by EPSRC (Grant EP/F023464/1 - £4M) has been developed in partnership with Tata Steel Europe (contact: Scientific Fellow) where the model has been transferred. Research activity at Tata with the model has led to two successful EU-RFCS grants won by them.
Interdisciplinary
-
Cross-referral requested
-
Research group
None
Proposed double-weighted
No
Double-weighted statement
-
Reserve for a double-weighted output
No
Non-English
No
English abstract
-