Jan-Eric Ståhl
Professor
FE simulation and experimental verification of side-flow and burr formation in machining of oxygen-free copper
Author
Summary, in English
This article considers the influence of cutting data on burr formation when machining oxygen-free copper in a longitudinal turning operation. Burr formation and side-flow frequently occur in a cutting process, resulting in highly undesirable poor surface integrity and reduced dimensional accuracy of the machined components. Finite Element (FE) simulations of a cutting process were used to simulate radial burr formation for variable cutting depth, feed and major cutting edge angle. The results from FE simulations are compared with the experiments of longitudinal turning. Decrease of depth of cut and major cutting edge angle result in reduced burr formation. Additionally, high speed filming performed during the machining revealed a five-stage cycle of burr formation.
Department/s
- Production and Materials Engineering
- SPI: Sustainable Production Initiative
Publishing year
2018-01-01
Language
English
Pages
1427-1432
Publication/Series
Procedia CIRP
Volume
72
Document type
Conference paper
Topic
- Production Engineering, Human Work Science and Ergonomics
Keywords
- Burr formation
- copper
- Finite Element Method (FEM)
- machining
Conference name
51st CIRP Conference on Manufacturing Systems, CIRP CMS 2018
Conference date
2018-05-16 - 2018-05-18
Conference place
Stockholm, Sweden
Status
Published
ISBN/ISSN/Other
- ISSN: 2212-8271