February 14, 2013, 9:44 pm by Eldar Gerfanov (Admin)
Sometimes people ask me: "I tried your calculator, and i liked it, but it seems to me a little too aggressive...do you actually do any testing?"
Well, to those I say that not only i do testing, but i run production jobs 100% calculated with my own HSMAdvisor.
Many machinists say that nothing beats an experienced operator holding his hand on feed hold button and playing with speed and feed override trying to find the "sweet spot" where cutting speed and feed rate are maximized and chatter is eliminated or reduced.
And it is correct, but not any machinist is experienced or actually knows what he is doing. Many machinists also finish their apprenticeship program and never learn a single thing about new tooling types and materials since. They bag years of experience, but their knowledge is stuck on a level it was when they first got their license.
Also not a single person can possibly know cutting conditions for hundreds of materials and remember all of the jobs he had ever ran.
This is where tool database comes in.
Not only can you save tools to cut down and in many cases eliminate entering parameters for every calculation. But you can (and should) save cutting data for each particular case.
A single tool entry can contain an unlimited number of cuts attached to it, so machinist never has to remember everything.
Here is a i made video of slotting D2 with variable helix hi-performace endmill.
November 23, 2012, 11:25 pm by Eldar Gerfanov (Admin)
Hi-helix end mills have several advantages inherited with their design.
Simple math says that a an endmill with 45 degree helix angle directs 50% of the cutting force downward versus 25% for a 30 degree end mill.
Main advantages are:
Higher rake angle directs more of a cutting force downward. This reduces side load on the cutter, that leads to less deflection and less tendency to chatter.
At high axial engagement (deeper depths of cuts) more flutes remain in the contact with the work piece. This leads to much smoother cut, again reducing tendency of the cutter to chatter.
High helix angle pulls chips upward and away from the cutting zone. This reduces chip re-cutting and helps prevent cutter from getting clogged up. This also allows to take deeper cuts and increases productivity.
Because of higher helix more of flute length is being used in the cut. Better surface finish is achieved even when using the same chip load. Generally an end mill with 45 degree helix can be fed 30% faster than equivalent one with 30 degree helix and still achieve same surface finish.
High helix end mills also have disadvantages that a machinist has to take into consideration:
With more of cutting force directed axially, the load on spindle bearings in downward direction is increased.
Tendency for both the end mill and the work piece to pull out is increased. So a more rigid tool holding and work clamping should be considered.
Higher helix end mills are also less stiff that regular helix end mills. This may cause more deflection and may become a problem when having to machine straight walls. This effect should be mostly diminished by lower side radial load, but it still needs to be considered in some cases.
You may freely reproduce information presented herein without any consent from me, provided you include link to this site. In case when i am not the copyright holder, you may want to contact proper owner of material. Anyway, they are freely available on the Internet. If you hold the copyright right for any of the materials on this site and want them removed, please contact me here