Output details
15 - General Engineering
Brunel University London
Article title
Optimizing heat transfer rate in an internally cooled cutting tool: FE-based design analysis and experimental study
Type
D - Journal article
Title of journal
Key Engineering Materials
Article number
-
Volume number
496
Issue number
-
First page of article
188
ISSN of journal
1662-9795
Year of publication
2011
URL
-
Number of additional authors
3
Additional information
This output was disseminated from the ConTemp project (contract no.228585) funded by the EU FP7 NMP program. Machining produces high local temperatures in the contact areas between tool-chip and tool-work piece which normally lead to negative influence on machining performance and part finish. This paper details the optimisation of an internal micro channel structure of a tungsten carbide (WC) cutting tool to enhance heat transfer rate and thus increase the effectiveness of the internal cooling system.
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
-
