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Renishaw, Silfex Take Ballbar Testing to the Next Level

July 7, 2014
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EATON, Ohio – Ballbar testing is nothing new to those who use fleets of machine tools, and people like Wayne Ross and Jacob Hebbeler at Eaton, Ohio-based Silfex have used ballbar analysis to maintain and enhance the accuracy of the plant’s 50+ machines for more than a decade. But, it turns out that experienced ballbar users can still learn a few new tricks that can be transformational to a business. After upgrading to a QC20-W wireless ballbar and taking Renishaw’s Advanced Ballbar course, TPM manager Ross and production machinist Hebbeler now use captured ballbar data to evaluate machines’ production accuracy, "super tune" machines to better-than-factory accuracy, and get longer life out of machine components. Ballbar tests have also changed the way the company proves out machines, schedules maintenance and evaluates the need for new machines. “We’ve done ballbar testing for years, but until we took the advanced ballbar course we weren’t making full use of the results,” said Ross. “Now we’re using the ballbar to qualify metrology, time our maintenance decisions, implement TPM and SPC, and even forecast machine life. It’s helping us make operational and capital equipment decisions in ways we never thought possible.”

Unconventional processing with conventional equipment
Silfex's machining application is like a military proving ground for machine tools, so machine diagnostics are a way of life. Its lathes and VMC's – primarily Haas and Mazak – use specialized tooling to grind and polish silicon and quartz for the semiconductor industry, which forms an abrasive compound that wears out components in months. The 300+-employee company is a rapidly growing division of Lam Research Corp., and has built a reputation as a premier supplier of silicon components for the semiconductor industry. These consumable parts support the etching process in the manufacture of computer chips.

“We are one of the few companies in the world that can grow defect-free, single-crystal silicon to a diameter of 460 mm," Ross explained. “We do start-to-finish manufacturing under one roof, which is important because the semi-conductor industry requires 100-percent traceability on everything from the material source to the machined parts, and we have all of that under direct control,” added Ross. "For our customers' requirements, this is a purchasing manager's dream."

The plant is environmentally controlled and equipped with multiple cleanrooms from class 10,000 to 100. "One speck of contamination can wipe out a lot of computer chips," Ross stressed.

Processing the silicon includes wire sawing, waterjet cutting, milling, drilling, grinding and lap polishing before inspection in metrology rooms with CMM and VCMM equipment. Parts then go to an on-site cleanroom for packaging. Production runs range from five to 100 pieces per setup and the required tolerances are typically ±0.001 inch, with some requiring ±0.0005 inch.

Grinding Silicon creates an extremely harsh machining environment. “We’re using conventional machines to do unconventional processing, and using ballbar diagnostics to stay on top of our machine capability in a high-wear application,” said Ross. "We use the ballbar to diagnose ballscrew wear every six months, but usually get called to test machines before that. The advanced ballbar training showed us how to determine if we can make machine adjustments or if it’s time to replace the ballscrews. This allows us to control downtime scheduling and maintain our accuracy as machine components wear out, rather than judging machine capability from the quality of finished parts. We run these machines hard, three shifts, five days a week, with quite a few long runs, and the grinding environment is tough on the equipment. I’m amazed at how accurate we can make these machines considering how rapidly the machining environment changes. Our VMCs are hitting accuracies comparable with much higher-end machines. And, while high-end machines are faster, we can grind only so fast. So, we don’t need ‘faster,’ just accurate."

Advanced ballbar training raises the bar for company's machining capability
Ross and Hebbeler came away from Renishaw's advanced training with a much better understanding of their ballbar data and how to use it. Conducted at Renishaw in Hoffman Estates, Ill., the hands-on course allows participants to practice setting up and running ballbar analysis on a variety of different machine tools in a learning lab. “I’ve been working with ballbars for 13 years and thought I knew my stuff,” said Hebbeler. “But after 10 minutes, I was learning new tricks. Among other things, we learned how to troubleshoot scale mismatch, which has helped us super tune our circular interpolation and extend the useful life of the mechanical parts of our machines. We also look at lateral play to gauge the condition of our linear guides.”

"After the advanced class we concentrated on interpreting our numbers to see if there were more details we could control," Ross explained. "Jacob has gotten really good at adjusting the backlash and reversal spikes, so we can get more life out of the ballscrews, which is our hedge until we can get a service tech in. Sometimes we can do two or three adjustments and that buys us a lot of productive time to schedule when to take the machine offline for repair.”

Accuracy now starts at ground level
Silfex uses ballbar diagnostics to determine a machine’s squareness, which is the prerequisite for analyzing backlash and reversal spikes. “Many shops overlook the effects of the floor, as we were, on machine level,” said Ross. “We are lucky our concrete is substantial enough to support all the weight we put on it, and we check and adjust the machine level upon installation. Once we set the level we can diagnose reversal spikes, backlash and scaling mismatch, which we didn't know how to do before the class."

Ross and Hebbeler now handle machine leveling using a 0.0002-inch level, largely because they can hit specs that some technicians have trouble achieving.

“The two-tenths bubble servicemen can meet our requirements, but the five-tenths bubble guys can’t,” said Hebbeler. “Our leveling is so precise today that we often wish the leveling screws had a finer pitch on them.”

After the training Ross and Hebbeler used their new knowledge to push the boundaries of machine accuracy. “Our goal on squareness was 0.000050 inch, and I decided we would try for 0.000025 inch,” said Ross. “When I told Jacob he expressed doubt, but I showed him data that proved he had already achieved it three times prior.”

Based on their success with the ballbar, Ross and Hebbeler are expanding their machine diagnostics. “The ballbar tells us about the foundation: the linear guides, the ballscrews and the thrust bearings – the bottom end of the machine – that’s where mechanical tolerances are established and it also confirms our metrology,” said Ross. “We’ve also started using some vibration analysis, and that tells us about the top-end of the machine which dictates finish. So, between the two, we are analyzing all the factors that affect our size and finish. We’d like to get into volumetric compensation testing with the ballbar. We currently test X and Y on VMCs, and X and Z on the lathes and have done full Y-Z testing in the past on a few machining centers. With volumetric testing we’ll also hit X-Z and I think we’ll be able to get what we need in the 220-degree sweep the ballbar is capable of.”

No wire, no worry
Upgrading to the wireless ballbar simplified data collection, and made it safer, Hebbeler explained. “With the wired ballbar, I spent a lot of time babysitting a machine under test. I had to feed wire in through the back of the machine, and if I walked away for a few minutes I often came back to a twisted wire. I always had a nagging thought that any little tug on a wire during a test might skew the results. We don’t have those issues with wireless operation. I can set it up and go do something else until the test is complete. It’s also safer now that we’ve eliminated open-door testing.”

Ballbar data opens doors for new programs
Silfex is now using ballbar data to establish thresholds in relation to its various processes and determine process capability. “We now have diagnostics to back up what we think is happening with our machines,” said Ross. “This data is being used for our TPM program, implementation of SPC and our future OEE monitoring. Full SPC will allow us to move away from 100 percent part inspection. We are also working to determine what will be the useful life of a machine based on capability, maintenance costs and consistent quality.”

Even machine-tool technicians are impressed with the expertise demonstrated at Silfex. “Some of them will say, ‘well, this machine is now as good as new,’ and we tell them we need it better,” said Hebbeler. “Their response is, ‘well then tell us what to do,’ and when we show them they ask how we did it. The advanced training provided us with knowledge that is tech-level, and we have data to backup our thinking.”

The data generated through ballbar analysis has even found it’s way to the company's C-suite. “The engineers at corporate now want to see a ballbar report every time a machine is qualified,” said Hebbeler. “This is filed with the machine documentation as part of our regular procedures between here and headquarters. Manufacturing keeps raising the bar and ballbar analysis helps us reach higher.”

Ross added, “The world revolves around numbers and ballbar analysis is our magnifying glass to help make good business decisions.”

For more information, visit www.renishaw.com.
 

Source: Renishaw

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