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allmetalworking > Featured Articles > Laser Scanning Casts Savings Into Foundry’s Bottom Line

Laser Scanning Casts Savings Into Foundry’s Bottom Line
Author: Tooling & Production Magazine Staff
Source From: Tooling & Production Magazine
Posted Date: 2010-05-20

When your livelihood depends on an inventory of tools worth millions of dollars, you’re going to play it smart. You’re going to take care of that inventory. At least, you will if you’re Grede Foundries Inc., a Milwaukee-based company specializing in ferrous castings.

While its plant in Reedsburg, Wisconsin, USA, casts suspension parts, differential cases, crankshafts, and like parts, inspectors there check hundreds of tools regularly with a coordinate measuring machine (CMM) retrofitted with an LC50 laser scanner from Nikon Metrology in Brighton, Michigan. Their goal is to prevent the inevitable wear on the surface of the tool from progressing to the point that it causes quality problems and damage that is expensive to repair.


Material versatility ensures that components and systems are “manufacturable” and will function as designed.

In casting, a tool called a pattern creates impressions in sand to create a mold into which molten steel is poured.

The constant pushing of the pattern against the sand causes a grinding action that abrades the surface and wears away important details. To retard this wear, Grede protects the surfaces by applying hard, abrasion-resistant chromium based coatings chosen carefully for each job. In time, though, the sand eventually wears them away too.

“After a specified number of cycles or when the operator can see wear, a pattern has to be inspected,” says Bernie Bill, Grede’s Layout Supervisor in charge of the Quality Laboratory. “We will rescan it and compare the measurements to the baseline.”

The baseline is the scan of a pattern that has been proven to produce good castings. “We don’t compare measurements to the original CAD model of the part because the pattern has to vary from it slightly to accommodate shrinkage,” says Bill. “We have to tweak the pattern to get the castings to meet customer specifications.” Once the patterns are able to make good castings and the customer approves them, Bill’s team scans the tool and stores the cloud of points as an STL file. The inspector aligns the pattern to a jig mounted on the CMM, retrieves the program used to create the baseline STL model of the pattern, and lets the CMM inspect the tool.

Then, Bill uses Nikon Metrology’s Focus Inspect software to compare the cloud of measurement points to the baseline and generate a color-coded map of the part. “You can have results within 15 minutes to a half an hour,” he says. Because each color represents a deviation from nominal, production can see at a glance where wear is occurring and how much wear has occurred.

“The results tell them what the plan for the pattern is going to be,” says Bill. “They know that they might be able to get by with running 5000 more cycles before sending the tool out for stripping and recoating.” Or they might pull the tool immediately to prevent further wear that would require welding and grinding the tool to bring it back into specification. If, however, they were to find that they were too late and that repairs were necessary, then the scanner would check the repairs afterward against the baseline to ensure that they returned the pattern to the approved specifications.

Monitoring wear is not the only use of the laser scanner and baseline scans. Scanning also comes in handy for helping engineering troubleshoot problems. For example, scanning can help diagnose an alignment problem that might prevent the two halves of the mold from fitting together just right to create a good seal. Without enough clearance, the two sandbanks on the outer edges of the two halves of the mold will crush each other, which can cause some sand to fall into the cavity. Iron forms around the sand, creating holes in the casting. Too much clearance, on the other hand, will let some molten metal leak from the parting line. The resulting thin, but hard flashing must be cut and ground away.

 “So we scan both patterns, put the scans together, and check for clearance and crush electronically,” says Bill. “When we put it on the screen, we can see whether it’s a pattern problem and, if it is, exactly what they’ve got to fix.” Not only do the color maps eliminate the need to pour over tables of measurement data, but they also can be attached to work orders to show the problem clearly and exactly to toolmakers in the pattern shop.

In the past, the toolmakers would have had to weld and grind the patterns based upon their experience. Sometimes, the toolmakers would be lucky the first time, but most of the time, four to six iterations would be necessary to correct the problem. With laser scanning, however, diagnosing problems and repairing patterns is no longer a trial-and-error process. Because scanning collects more data in less time and presents it in a format that can be easily read, it eliminates guesswork. “Most of the time now, the pattern shop is making the right correction on the first try,” says Bill.

Moreover, scrap rates are way down. A good example is a set of tools for making a bracket for automobile brakes. Laser scanning helped engineering to find not only some clearance in the patterns but also some variation in the machine that exacerbated the problem and caused a lot of scrap. Based on the information gleaned from the color maps, engineering was able to reduce a 5.2% scrap rate down to 1.0%, thereby saving the company $48,000 a year on that job.

After using the scanner for six months, Grede estimated that using the laser scanner only one shift a day would save the company about $81,000 during the first year by reducing scrap alone – and that was after paying for the Nikon Metrology laser scanner and software. Almost six months later, he could see that he was going to have to revise his estimate upwards. So plans are to play it even smarter –to scale up and run the scanner another shift.

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Original Hyperlink: http://www.toolingandproduction.com/enews/2010_May2/feature1.aspx..

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About Us: Tooling & Production, published since 1934, provides information to metalworking professionals working in large, high-throughput plants. Original editorial delivers technology, products, and processes applying to aerospace, automotive, medical equipment, mold, tool & die manufacturing, and much more.

Note: The copyright and the ownship of the brand, product names, product numbers, and content mentioned belongs to their repective companies.

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