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We all have heard hundreds of times that when chatter is happening during machining we should simply reduce our feed rate. The same advice we also hear for compensating for extra-long tools and unstable setups.

Let me explain why I think this is mostly incorrect.

Let’s list  the effects of reducing the feed rate:

  1. Reduces tool life.
  2. Reduces productivity.
  3. Increases deflection.
  4. Causes chatter.

Let me explain from my own experience and research i have done each of these points and a simple single way to avoid the the adverse effects of chatter.

Reduction in chip-load reduces tool life

This may seem counter-intuitive, but tool gets best cutting edge life only within a narrow window of chip-load range and cutting speed.

Reduce your chipload below certain value and you will be hurting your tool life a great deal.
Yes, your tool may run longer, but it will do a lot less work before it gets dull!

Reduction in productivity

This point follows right out of the previous one. Not only your tool now moves slower, thus reducing the material removal rate, but you also have to replace it more often. That adds extra setup time cost too.

Increase in deflection

Cutting action is a fine balance between a cutting edge plowing through material, rubbing and  shearing it. We want to do as much shearing as possible and less plowing and ideally no rubbing.

I recently did a test cutting 6061 Aluminum plate with a 1” long .25” dia Grooving tool and measuring its deflection at different chip-loads:

You can clearly see how below 0.0005” chipload (X-axis) bar deflection is double of what it should be, if you were to follow the light-blue trend line. Here we are getting 0.001” deflection!

Then once we increase the chipload to 0.001” the tool is not rubbing any more and we get 0.0015” deflection - not double, but only 150% of deflection increase for 200% increase in chip-load.

The line continues steady until we hit 0.003” chipload and then it almost takes a dip!

Between 0.003” and 0.004” chipload we get just 0.001” increase in deflection instead of projected 0.002”.

This means that the perfect chip load for the boring bar i was using is between .003” and .004” because right after the sweet spot, at .005” chipload we get a sudden spike in deflection up to 0.010”

As cutting edge (ideally) shears off a slice of material, it hardens the work-piece right underneath. This layer of material will be sheared off by the next (or the same in case of a single flute) cutting edge.

If our chip-load is too low, we will be cutting right through the work-hardened surface, thus decreasing tool life (see point one) and actually increasing the cutting pressure.

Also the cutting edge is not ideally sharp. It has an edge radius, half of which will be pushing material up and the other one - down. So you will be having a lot of plowing and rubbing action too.

Because one image is better than a thousand words:

The red surface on the picture is the work-hardened layer. The green one - workpiece with the regular hardness. We want the cutting edge to shear off underneath the hardened layer.

Induces Chatter

In many cases lower feed rate may actually be the reason for chatter in the first place.

Have you ever heard an experienced machinist tell somebody to “load-up that tool” to prevent chatter?
Most likely YOU are such machinist and you have noticed that increasing feedrate may actually reduce chatter.

Why does chatter occur?
It is a combination of the above mentioned factors such as increase in bad cutting pressure causing deflection and unstable cutting conditions.

The tool deflected by the cutting pressure tries to return to its original shape and lack of chipload allows it to do so unobstructed. The tool pretty much vibrates freely. When that happens thousands of times per minute you get your tool singing.

When you increase the feedrate, you may actually create more stable cutting conditions and eliminate chatter.

So what should I do if I am already getting chatter?

First of all make sure you are using proper speeds and feeds to begin with.
Call you tool vendor to try and get proper numbers for your particular case or try our HSMAdvisor- Advanced Speed and Feed Calculator.

HSMAdvisor will suggest you perfect starting speeds and feeds and also it will suggest you proper Depth and Width of cut for for your particular work-piece material and tool configuration.

If you used HSMAdvisor, chances are you are not going to get any chatter at all!

If you did not and want to go with your tool vendor' numbers - fine - try their speeds and feeds on your machine.

Did it help? If not, here is the simple solution:

Reduce the Depth of Cut!

While reduction in chip-load leads to more rubbing, it does not reduce the cutting pressure in the same way reduction of DOC does.

For example. We might only need to reduce the DOC (and thus cutting pressure) by 20% and the chatter will go away. The same effect would require us to reduce the feed by 50% or so if we are lucky. If we are not lucky even further reduction in feed rate will not eliminate the chatter.

So in the conclusion:

Whenever you are having chatter issues get proper Speeds and Feeds and reduce that DOC!

Best Regards

--Eldar Gerfanov

Comments:

Pages:(1) [1]

By tom

May 1, 2016, 6:32 pm
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Nicely done!

By Eldar Gerfanov

May 1, 2016, 10:17 pm
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Quote:
Nicely done!

 Thanks, Just trying to dispell some old misconceptions!

By steve middleton

May 4, 2016, 11:24 am
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Totally agree- when i experience chatter - i check the component is supported correcty - also reduce step over and depth of cut.

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