As I mentioned in my “CNC Tooling Basics for Woodworkers” post and the introduction, there are
a lot of little details that go into the design of CNC end mills and router
bits. Only a few are important for most digital woodworkers, so, this is a
streamlined primer focused on the basic details you need to know when choosing
router bits and end mills for use on a CNC.
First, a diagram of the parts of a CNC
end mill or router bit:
Cutting Diameter is
the width of cutting part of the tool
Flutes are
the cutting edges along the side of the mill or bit
Length of Cut or
“LOC “is the length of the cutting area
Overall Length or
“OAL” is the length of the entire mill or bit
Shank is
the area of the mill that is clamped into the tool holder or collet.
Shaft Diameter is
width of the shaft
Helix Angle is
the angle of the cutters from the longitudinal axis
CNC Cutter Design Basics — Flutes
Flutes are the cutting edges you see
along the sides of CNC mills and router bits. In the case of the spiral router
bits meant for wood cutting, two flutes are most common. CNC mills can have
from one to six flutes, though two or four are prevalent.
So what difference does the number of
flutes on a cutter make? If you’re cutting wood on a CNC Router the number of flutes
matters quite a bit.
As a woodworker, you might think that
more flutes might result in a cleaner cut. After all, when it comes to saw
blades, usually more teeth or cutting edges result in a cleaner cut. But,
between the fast speeds that CNCs can travel, the higher RPMs that water-cooled
spindles achieve and the quantity of wood waste produced, more flutes are
usually not the best way to go.
When cutting wood on a CNC we’re
creating a massive amount of chips. The more flutes you have means more chips
being created per rotation; therefore the CNC has to travel much faster to
eject them. There’s even a calculable term for this called chip load (we’ll get into that at a later date).
But you need to know that the result of all those chips piling up is the cutter
gets hot because it can’t eject chips fast enough – so the material being cut
starts to burn and the bit overheats. It’s bad for the cutter and potentially a
dangerous situation.
Here’s the rule of thumb: More cutters
mean that the CNC has to run faster to eject waste and stay cool. Fewer flutes
mean more material can be removed per rotation when running a CNC at
slower feed rates. Feed rates on a CNC is a big topic in itself, but let’s take
a quick look at what kind of speeds I mean when I say “fast.”
A high-performance four-flute wood
cutting bit needs to travel at 1,800-2,000 Inches Per Minute (IPM) to work
properly. Only the fastest and most expensive top-of-the-line factory-level
machines using 10-20hp spindles can run that fast. At that speed, you stand
behind safety shields and just watch the CNC move around in an insane blur.
Even three-flute specialized cutters need to run 900-1,200 IPM – still
very fast but within the range of the best commercial grade CNCs. Two-flute
wood cutters happily run from less than 200 to 600 IPM — which is the real
world feed rate range of the kind of machines that a woodworker, smaller
professional shops or average cabinet shop CNC are able to achieve. I can tell
you from personal experience that it’s still way more than fast enough to do
the most frequent task CNCs do for a woodworker: cutting parts.
OK – now for some lessons learned. When
I started out I purchased several four-flute cutters thinking they’d give a
cleaner cut, but with the exception of a few specialized cutters, they just
don’t work for cutting wood on a CNC. Bits overheated. Cuts weren’t clean.
Chips were hot and slightly burned. It just never worked. Besides the ones I
tried, I’m now left with a number of unused four-flute mills in my collection
as a result of learning this lesson first hand. So, I use two-flute spiral
cutters almost exclusively for cutting wood and those are what I recommend. I’m
not the only one. Notable cutting-tool manufacturers such as Onsrud and
Vortex recommend two-flute mills for woodworking on the kind of CNCs we
typically use, too.
Other CNC End Mill Design Details
Helix Angles You
don’t need to worry about this too much except to keep in mind that the best
range for cutting wood are considered low helix when compared to metal cutting
bits: 22° to less than 30°. There are exceptions at both ends, but for the most
part, cutters intended for our use are within that range.
What about single-flute cutters?
They’re rarely appropriate for cutting wood on a CNC (there are a few
exceptions for specialized finishing bits). But for use on aluminum or
hard plastics, single flutes are most common. Special single-flute cutter
designs called O-flutes are the tool of choice in those cases.
So in short, the only realistic choice
for cutting wood on a CNC is to use cutters with fewer flutes. And that almost
always that means two.
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