Cylindrical/Square end mills SX
Product ID: H8616610
Smooth-edged, medium version, short neck, DURO-Si
![Fine grain carbide. Hardness 1600 HV. Co content 10%. Cutting tool substrate material - Hm MG10](https://fraisa.cdn.celum.cloud/CDNIcon/1534.png)
![The tool is furnished with a corner radius. For every diameter the size of the radius is listed in the corresponding data table of the catalogue. Form of the corner of the cutting edges - Corner radius](https://fraisa.cdn.celum.cloud/CDNIcon/323.png)
![Helix angle 43° Rake angle 3° Helix angle 43° Rake angle 3°](https://fraisa.cdn.celum.cloud/CDNIcon/3561.png)
![Milling tool with a partially polished blade • Reinforcement of the exposed cutting corner • Absorption of high cutting forces Tool technologies - Milling tool with a partially polished blade](https://fraisa.cdn.celum.cloud/CDNIcon/373.png)
![Milling tool with increased core diameter • Improved tool rigidity and less tool deflection • Higher performance in the area of the infeeds ap, ae and of the feed rate fz • Better component accuracy through less tool deflection Tool technologies - Milling tool with increased core diameter](https://fraisa.cdn.celum.cloud/CDNIcon/333.png)
![Milling tool with a special groove geometry • Optimised swarf/groove geometry for improved swarf removal • Optimised relationship between core diameter and swarf space for a high level of tool stability Tool technologies - Milling tool with a special groove geometry](https://fraisa.cdn.celum.cloud/CDNIcon/343.png)
![Milling tool with a variable helix angle • Minimisation of oscillation and vibrations • Increase in material removal rates and tool life Tool technologies - Milling tool with a variable helix angle](https://fraisa.cdn.celum.cloud/CDNIcon/372.png)
![Smooth transitions • The shaft-neck-cutting edge transitions are fitted with smooth gradients and radii • Improved tool rigidity and therefore less radial deflection • Minimal step formation with several infeed depths • Higher mechanical load and therefore improved performance Tool technologies - Smooth transitions](https://fraisa.cdn.celum.cloud/CDNIcon/388.png)
![Fine grain carbide. Hardness 1600 HV. Co content 10%. Cutting tool substrate material - Hm MG10](https://fraisa.cdn.celum.cloud/CDNIcon/1534.png)
![The tool is furnished with a corner radius. For every diameter the size of the radius is listed in the corresponding data table of the catalogue. Form of the corner of the cutting edges - Corner radius](https://fraisa.cdn.celum.cloud/CDNIcon/323.png)
![Helix angle 43° Rake angle 3° Helix angle 43° Rake angle 3°](https://fraisa.cdn.celum.cloud/CDNIcon/3561.png)
![Milling tool with a partially polished blade • Reinforcement of the exposed cutting corner • Absorption of high cutting forces Tool technologies - Milling tool with a partially polished blade](https://fraisa.cdn.celum.cloud/CDNIcon/373.png)
![Milling tool with increased core diameter • Improved tool rigidity and less tool deflection • Higher performance in the area of the infeeds ap, ae and of the feed rate fz • Better component accuracy through less tool deflection Tool technologies - Milling tool with increased core diameter](https://fraisa.cdn.celum.cloud/CDNIcon/333.png)
![Milling tool with a special groove geometry • Optimised swarf/groove geometry for improved swarf removal • Optimised relationship between core diameter and swarf space for a high level of tool stability Tool technologies - Milling tool with a special groove geometry](https://fraisa.cdn.celum.cloud/CDNIcon/343.png)
![Milling tool with a variable helix angle • Minimisation of oscillation and vibrations • Increase in material removal rates and tool life Tool technologies - Milling tool with a variable helix angle](https://fraisa.cdn.celum.cloud/CDNIcon/372.png)
![Smooth transitions • The shaft-neck-cutting edge transitions are fitted with smooth gradients and radii • Improved tool rigidity and therefore less radial deflection • Minimal step formation with several infeed depths • Higher mechanical load and therefore improved performance Tool technologies - Smooth transitions](https://fraisa.cdn.celum.cloud/CDNIcon/388.png)
![good to adequate suitability for Rm < 850 Rm < 850](https://fraisa.cdn.celum.cloud/CDNIcon/698.png)
![particularly suitable for Inox Stainless Inox Stainless](https://fraisa.cdn.celum.cloud/CDNIcon/689.png)
![good to adequate suitability for Ti Titanium Ti Titanium](https://fraisa.cdn.celum.cloud/CDNIcon/700.png)
![good to adequate suitability for Rm < 850 Rm < 850](https://fraisa.cdn.celum.cloud/CDNIcon/698.png)
![particularly suitable for Inox Stainless Inox Stainless](https://fraisa.cdn.celum.cloud/CDNIcon/689.png)
![good to adequate suitability for Ti Titanium Ti Titanium](https://fraisa.cdn.celum.cloud/CDNIcon/700.png)
![Roughing HPC, laterally (partial cut) Roughing HPC, laterally (partial cut)](https://fraisa.cdn.celum.cloud/CDNIcon/531.png)
![Roughing HPC, slots (full cut) Roughing HPC, slots (full cut)](https://fraisa.cdn.celum.cloud/CDNIcon/532.png)
![Finishing (partial cut) (Finishing F) Finishing (partial cut) (Finishing F)](https://fraisa.cdn.celum.cloud/CDNIcon/520.png)
![Roughing HDC-S (partial cut) Roughing HDC-S (partial cut)](https://fraisa.cdn.celum.cloud/CDNIcon/530.png)
![Roughing HDC-P (partial cut) (Pre-Finishing PF) Roughing HDC-P (partial cut) (Pre-Finishing PF)](https://fraisa.cdn.celum.cloud/CDNIcon/527.png)
![Penetration, helical interpolation Penetration, helical interpolation](https://fraisa.cdn.celum.cloud/CDNIcon/518.png)
![Penetration, ramping Penetration, ramping](https://fraisa.cdn.celum.cloud/CDNIcon/519.png)
![Roughing HPC, laterally (partial cut) Roughing HPC, laterally (partial cut)](https://fraisa.cdn.celum.cloud/CDNIcon/531.png)
![Roughing HPC, slots (full cut) Roughing HPC, slots (full cut)](https://fraisa.cdn.celum.cloud/CDNIcon/532.png)
![Finishing (partial cut) (Finishing F) Finishing (partial cut) (Finishing F)](https://fraisa.cdn.celum.cloud/CDNIcon/520.png)
![Roughing HDC-S (partial cut) Roughing HDC-S (partial cut)](https://fraisa.cdn.celum.cloud/CDNIcon/530.png)
![Roughing HDC-P (partial cut) (Pre-Finishing PF) Roughing HDC-P (partial cut) (Pre-Finishing PF)](https://fraisa.cdn.celum.cloud/CDNIcon/527.png)
![Penetration, helical interpolation Penetration, helical interpolation](https://fraisa.cdn.celum.cloud/CDNIcon/518.png)
![Penetration, ramping Penetration, ramping](https://fraisa.cdn.celum.cloud/CDNIcon/519.png)
![Cylindrical/Square end mills SX Cylindrical/Square end mills SX product photo back L](https://fraisa.cdn.celum.cloud/CDNProductDetail/4598.png)
![Cylindrical/Square end mills SX Cylindrical/Square end mills SX product photo front L](https://fraisa.cdn.celum.cloud/CDNProductDetail/4430.png)
![Products that have a high level of specialisation for applications that go beyond (eXtra!) general applications and performance demands. Performance rating - X-Generation](https://fraisa.cdn.celum.cloud/CDNIcon/601.png)
- Finishing
- Roughing HDC
- Roughing HPC
![Full carbide tools with a cylindrical shank and a side clamping surface. Shank version in accordance with DIN 6535 HB Full carbide tools with a cylindrical shank and a side clamping surface Schaftausfuehrung_HB](https://fraisa.cdn.celum.cloud/CDNIcon/3320.png)
DURO-Si
![Products that have a high level of specialisation for applications that go beyond (eXtra!) general applications and performance demands. Performance rating - X-Generation](https://fraisa.cdn.celum.cloud/CDNIcon/601.png)
Ø Code | d1 e8 | d2 h6 | d3 | l1 | l2 | l3 | l4 | r | α° | z |
---|---|---|---|---|---|---|---|---|---|---|
610 | 16 | 16 | 15 | 108 | 53 | 58.13 | 59 | 0.2 | 0 | 4 |
![Products that have a high level of specialisation for applications that go beyond (eXtra!) general applications and performance demands. Performance rating - X-Generation](https://fraisa.cdn.celum.cloud/CDNIcon/601.png)
Smooth-edged, medium version, short neck, DURO-Si
Ø Code | d1 e8 | d2 h6 | d3 | l1 | l2 | l3 | l4 | r | α° | z |
---|---|---|---|---|---|---|---|---|---|---|
610 | 16 | 16 | 15 | 108 | 53 | 58.13 | 59 | 0.2 | 0 | 4 |