| Autor: |
Takuya, Kojima, Suzuki, Norikazu, Hino, Rei, Shamoto, Eiji |
| Zdroj: |
Procedia CIRP; January 2013, Vol. 8 Issue: 1 p363-367, 5p |
| Abstrakt: |
Regeneration is major mechanism to generate self-excited chatter vibration in cutting. Variable helix cutters are useful to suppress regeneration. Although optimization of pitch/helix angles is significantly important at the same time, there is no practical design method to optimize the variable helix cutter geometry so far. In order to attain robust regeneration suppression, a new design method of variable helix cutters is proposed in the present study. The pitch angles vary along axial position due to disagreement of the helix angles. Because of this nature, regeneration can be suppressed in a robust manner with respect to changes of chatter frequency and/or spindle speed. Optimal pitch/helix angles are formulated on the basis of distinctive relationship between the cutter geometry and “Regeneration Factor (RF)”, which is an index to quantify influence of regeneration in the process.Through analytical investigations, it is confirmed that regeneration can be suppressed effectively in low immersion milling with variable helix cutters by the proposed method, resulting in significant chatter stability increase. |
| Databáze: |
Supplemental Index |
| Externí odkaz: |
|
