High speed machining in excess of 20,000 RPMs is often utilized in aerospace when machining exotic alloys and harder metals like titanium.
At these rates of speed, the precise and secure seating of tapered toolholders in the spindle becomes even more critical. So much so, that failing to pay attention to this single detail can lead to decreased productivity, less precise machining, reduced tool life and even damaged workpieces.
However, that is precisely what is occurring in aerospace machining due to an often overlooked, even ignored, link in the chain: poorly designed retention knobs that—when tightened—create a bulge in the small end of the taper that prevents full contact and proper seating in the spindle.
Yet despite widespread evidence of uneven wear patterns and simple “touch-off” tests that immediately identify it as a widespread issue, the industry has largely ignored this aspect of machining and, unwittingly, are paying a significant price for it.
The flaw in the system
Although the shank of tapered toolholders is ground to a fine finish within very precise, established tolerances, and are also threaded at the narrow end to accept a retention knob. The knob is designed to engage with the drawbar, which exerts a pull force that holds the toolholder firmly in the spindle.
The problem is poorly designed, traditional retention knobs—a less than $30 part—when tightened create a bulge in the taper that prevents proper seating in the spindle. Once this expansion occurs, the toolholder will not pull fully into the spindle and so cannot make contact with upwards of 70 percent of its surface.
The results are manifested in a wide range of CNC milling issues often attributed to other causes: vibration and chatter, poor tolerances, non- repeatability, poor finishes, shortened tool life, excessive spindle wear and tear, run-out, and shallow depths of cuts.
“A lot of aerospace work is really tight tolerance,” said Rex Ausbun of Cling’s Aerospace, a company that specializes in complex 4 and 5 axis precision machined parts. “When you see chatter or vibration, you know there is an issue with the toolholder.”
According to Ausbun, who is responsible for purchasing all the inserts, tools and other machining accessories for Cling’s Aerospace, “with a tapered toolholder, you want to ‘marry’ it as tight as possible to the spindle to get as much contact across the entire taper as possible. That way, you are not just hitting at the top of the angle.”
To accomplish this, retention knobs are used. However, Ausbun said that newer CNC milling machines exert significantly more drawbar pressure on the knobs than in the past. This is compounded by the fact that most retention knob manufacturers provide little information on the proper torque required, a factor that can lead to the improper seating already described above.
As a result, Ausbun said several of the retention knobs literally pulled apart during operations.
“As drawbar tension continues to increase in CNC machines, it puts so much pressure on the weakest link, the retention knob, that it’s bound to come apart,” said Ausbun.
“It’s a significant issue because if the retention knob comes apart while the machine is running it could cause considerable damage,” added Ausbun. “You are talking spindles that cost $10-$14 thousand a piece today, not to mention the downtime. That’s a lot of money.”
High Torque retention knobs
To find a solution, Ausbun did some online research and found JM Performance Products Inc. In 2009, the company introduced its high torque retention knob. Invented by the company’s founder, John Stoneback, the product works with all existing toolholders including BT, DIN, ISO, and CAT toolholders from 30 taper to 60 taper.
The high torque retention knob is longer by design to reach deeper into the threaded bore of the toolholder. As a result, all thread engagement occurs in a region of the toolholder where there is a thicker cross-section of material to resist deformation.
It also includes a precision pilot to increase rigidity, and is balanced by design. Since even over-tightening of the high torque retention knobs can still create a bulge, the company provides specifically calculated torque specs based on drawbar pressure.
By combining the high torque retention knob with the correct torque, spindle contact with the taper is improved to close to 100% every time.
After finding out more information about the product, Ausbun said he decided to order a few and give them a try. In addition to having high hopes for the product, he said he was also impressed that JMPP had researched the appropriate torque settings for installing the retention knobs as well.
“When you start checking out different manufacturers as to what they recommend for torque specs on the retention knobs, everyone seems to have a different opinion,” said Ausbun. “I thought it was pretty impressive that [JMPP] went the extra mile and put a lot of research into determining the ideal torque.”
By increasing the rigidity of the toolholder at higher RPMs, the High Torque retention knob can also increase tool life.
Perhaps more than some other industries, aerospace manufacturing can take a toll on the carbide cutting tools used when machining exotic alloys and hard metals. The result is that cutting tools must be changed out more frequently as they dull or break.
“In aerospace every shop is trying to machine parts faster and aggressively remove more stock, just to stay competitive,” said Ausbun. “This just puts more pressure on the tool.”
With higher-end technical carbide inserts, the cost of tool replacement, not to mention loss of production time due to frequent changeover, can add up quickly.
“Since we changed to the High Torque Retention Knobs, we are not going through inserts like we used to and we haven’t had any more issues with retention knobs pulling apart,” said Ausbun. “I’m also not seeing any distortion in the toolholder taper either.”
Ausbun estimates that tool costs have been reduced by as much as 20% as a result.
Although manufacturers are already benefitting from implementing the high torque retention knobs, others remain unaware – even dismissive – that improper seating of tapered toolholders is even a problem.
Beitrag im Original auf http://theuasmagazine.com/articles/1797/aerospace-manufacturers-eliminate-weak-link-in-aero-machining, mit freundlicher Genehmigung von The UAS Magazine automatisch importiert, Original in englischer Sprache.