Mirror Finish Fly Cutter

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Hi GreenTwin,

Here are pictures of mine. I have drawings kicking about somewhere as well !

New_Flycutter-1.JPG


New_Flycutter-2.JPG


New_Flycutter-3.JPG


No milling ! Just thee holes. One for a 20 mm shaft, one for a 6 mm square tool bit and a M6 threaded hole for a grub screw.

The disc is made from the off cut of a 100 mm steel bar, 20 mm thick with a pressed in steel shaft.

The surface finish is what ever you want depending upon surface speed and material being machined.
 
Nice built.
I was able to turn on english captions, and so that worked out.
Makes an impressive finish.
I need to build one of these.
.
I might make one too....I guess it would cut ok, being a full circumference tool head, balanced, and wouldn't bounce on impact of intermittent cutting....
 
Celsoari, Baron,
Excellent! A good stiff holder for the tool.
I think the correct tooling, workpiece material, speed and feed all play a part as well. But this shows you know what you are doing. What shaft speed, depth of cut, feed-rate and workpiece material were you showing? A close-up of the tool shape would help too? Excellent stuff!
One industrial job, in a workshop I managed, was making electrical joint faces (For LARGE busbars) using a similar tooling to face aluminium bars 6 inches wide in a single pass. The machine was a woodworking tool running 6000rpm! A 1mm cut cleaned-up the raw surface in a single pass and using a sharp pointed tool gave the surface finish - not mirror-like - of grooves and peaks so when the joint was bolted-up the intersecting aluminium peaks deformed each other to make a very low resistance (metal to metal) good joint.
The swarf flew from that machine!
That job had a fly-cutter holder very similar to yours.
I am sure a radiused tool would have given a mirror finish on that machine too.
Thanks,
K2
 
Celsoari, Baron,
Excellent! A good stiff holder for the tool.
I think the correct tooling, workpiece material, speed and feed all play a part as well. But this shows you know what you are doing. What shaft speed, depth of cut, feed-rate and workpiece material were you showing? A close-up of the tool shape would help too? Excellent stuff!
One industrial job, in a workshop I managed, was making electrical joint faces (For LARGE busbars) using a similar tooling to face aluminium bars 6 inches wide in a single pass. The machine was a woodworking tool running 6000rpm! A 1mm cut cleaned-up the raw surface in a single pass and using a sharp pointed tool gave the surface finish - not mirror-like - of grooves and peaks so when the joint was bolted-up the intersecting aluminium peaks deformed each other to make a very low resistance (metal to metal) good joint.
The swarf flew from that machine!
That job had a fly-cutter holder very similar to yours.
I am sure a radiused tool would have given a mirror finish on that machine too.
Thanks,
K2
Hi Ken,

I've been using this style fly cutter for a lot of years now ! I know that a lot of people have built one. I know of one that has two cutters in it 180 degrees apart but on slightly different radii.

I've, depending upon material used a 1 mm DOC without any problems. I've even used it to surface hardwood, using the drill press. The centrifugal effect of the heavy disc does make a difference to the surface finish compared to the conventional swinging arm type cutter.

Interesting your comment on low surface resistance joints. I did find that worn carbide tool bits tended to produce a burnished finish rather than a cut one on some steels. The tool shape also makes a large difference to the surface finish. I started by using the rounded shape that you see in the picture, but found that a shape more like a lathe tool was more effective.
 
THANKS Baron.
I agree with cutting using a lathe tool, as while used on lathes against a curve of the cylinder, the same cutting angles are a relationship between the tool and workpiece material, not any perticular machine. And for model work, on "smaller less-stiff machines than needed for industry, smaller cuts with a sharp tool are easier than heavier cuts where "less sharp" carbide inserts are intended.
K2
 
Must admit that my flycutters seldom get use dthese days. I've gone over to insert face mills as they can be feed at 5-6 times faster for the same given chip load as a single point flycutter and as there is usually at least one insert in the cut all the time the gears in the mill's head run a lot quieter.

Flycutter with HSS may want a feed rate of 25mm/min, insert facemill can go at 400mm/min as the carbide can also be run faster. Also not going to get instantly blunted by a hardspot in a casting
 
In a shaper a tool bit ground to produce a shearing action rather than a cutting action leaves a really nice finish. You have to take light cuts and a step over that is smaller than the radius of the cutter so it is slow going. Easy enough to get it started and go do something else.
I wonder if a shearing bit would work in this tool?
 
I think most are adjustable for stroke length and speed as well as step over amount.

On mine anyway, there are different pulley speeds on the drive from the motor. Then as the stroke length changes, it effectively changes the tools speed as well. Like a lathe with fixed pulley speeds you try to find one that gives the best cutting speed at a particular diameter. In this case a stroke length/pulley combination that works for a particular setup.

The Scotch Yoke mechanism turns at the RPM from the input pulley. But the because of the geometry of the yoke long strokes move the slowest and short strokes are the fastest for any given pulley size. The other cool thing is that the back stroke is always faster than the cutting stroke.

The design of that thing was a "stroke of genius", pun intended. :D

Material type and cutter type all play into getting a good finish just as it does on the lathe.

My shaper manual shows how to make a shear tool and it should work in both the shaper and the lathe. That is why I was wondering if it would work in this fly cutter on the mill. My guess is that it would.

Since the cutter in this tool is vertical rather than angled, it would seem that the same cutter used on the shaper or the lathe would work just fine once you got the speeds and feeds dialed in. My experience with mild steel stock is that a HSS shear tool can only take .001 or .002 depth of cut. Definitely for finishing passes only.

I saw a video one time that was a good explanation of the shear tool. Don't remember for sure but I think it was Mr. Pete.
 
I think the nearest I have come to this in the past was the use of a round *Bull-nosed" tool for the final cut to get a better fining than the sharp point and slow feed. but that used a cutting action, not a shearing action as the video demonstrates.
K2
 
I think the nearest I have come to this in the past was the use of a round *Bull-nosed" tool for the final cut to get a better fining than the sharp point and slow feed. but that used a cutting action, not a shearing action as the video demonstrates.
K2
It's better to buy them this way but to improve the facing finish of an end mill, grind a small radius on the corner.
 
Thanks. That's another new one for me!
I'll try it! - I'm happy with lathe work, but there are many tricks and "specials" for milling that I never had the chance to learn. - Just another area of machining that keeps me glued to this site.
K2
 
Hi K2, Ken,

The same works on lathe tools !

The idea is that the cut is spread over a very small area, wide enough to remove the fine ridge when cutting with a sharp pointed tool.
 
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