Jan-Eric Ståhl
Professor
Tool Wear and Vibrations Generated When Turning High-chromium White Cast Iron with pCBN Tools
Author
Summary, in English
Dynamic behavior and stability of system 'tool-workpiece' when machining HCCI with pCBN tools are determined by the processes which occur in cutting zone. The cutting process is characterized by formation of tool protection layer (TPL) on the chip contact area but its stability depends on the workpiece material composition, tool material and cutting conditions. The higher content of Si in the HCCI promotes the TPL formation and its stability. The presence and stability of TPL, besides the cutting edge protection, provides the system with additional damping resulting in the suppression of vibrations. A low Si content and low cutting speed leads to increase of cutting forces that in turn causes the self-generated vibration occurrence.
Department/s
- Production and Materials Engineering
- SPI: Sustainable Production Initiative
Publishing year
2016
Language
English
Pages
285-289
Publication/Series
Procedia CIRP
Volume
46
Document type
Conference paper
Publisher
Elsevier
Topic
- Materials Engineering
Keywords
- high-chromium white cast iron (HCCI)
- pCBN tools
- self-generated vibrations
- tool protection layer (TPL)
- tool wear
- turning
Conference name
7th HPC 2016 – CIRP Conference on High Performance Cutting
Conference date
2016-05-31 - 2016-06-02
Conference place
Chemnitz, Germany
Status
Published
ISBN/ISSN/Other
- ISSN: 2212-8271