Buss Precision Mold in MoldMaking Technology Magazine

There’s a reason why Buss Precision Mold (BPM) is willing to have many of its mold bases shipped all the way from Austria.

For one, deliveries are fast despite the vast distance, says company President Jonathan Buss. That’s largely because standardized components make even highly customized bases easy to order—and easy to put together. What’s more, visitors to this Clackamas, Oregon, plastic injection mold manufacturer aren’t likely to find anyone spending inordinate amounts of time mapping hole locations, polishing leader pin bushings, resizing plates or using a hydraulic press to remove leader pins. And when machining does start, plates are less likely to deform than others the shop has worked with in the past.

A Rare Commodity

These advantages are particularly important for BPM. Founded in 1988, this is a company that prides itself on capacity and capabilities that belie its size, Buss says. With 12 employees and 5,500 square feet of manufacturing space, the shop specializes in demanding tooling with high contoured shapes, complex actions, particularly auto-unscrewing, two-shot, over-molding and metal injection mold (MIM) applications. Competitively building 40-50 such tools per year requires making the most of limited resources, and Buss says “Euro-Style” mold bases are a big help.

His use of the term Euro-style reflects not only the origin of this type of design, but also the fact that it’s relatively uncommon on this side of the Atlantic. That proved unfortunate circa 2008, when the company’s previous supplier closed its North American mold base manufacturing operation, Buss says. After a few years without Euro-style bases, he and his team were more than happy to go back when they recognized an opportunity to jump the most significant hurdle: lengthy shipping times.

This opportunity came courtesy of mold component supplier Meusburger. North America is large, and a shop like BPM is simply too far away for reasonable ground shipping from the supplier’s offices in Charlotte, North Carolina, let alone its manufacturing facilities in Austria. So, Meusburger ships components by air—and, Buss says, at a relatively competitive rate. Thanks to the way Euro-style mold bases are designed, delivery times are more than competitive as well. “I can order a complete, totally customized plate configuration and it’ll be here in anywhere from three to five days, all the way from Austria,” he says.

Auto Unscrewing with Interchangeable Cores of 0.007, 0.010 and 0.016 Inch Diameters running High Temperature PEEK

A Modular System
The primary difference between Meusburger bases and others the shop has used over the years is modularity, Buss says. That is, all plates are completely interchangeable, to the point where there is no need to differentiate between, say, A plates and B plates when ordering. “It doesn’t matter whether we need both A- and B-side ejection or two B sides,” Buss says. “They all arrive as standard plates ready to assemble. There’s no waiting for a custom quote or manufactured configuration.”

With many common designs, this would be impossible, because the leader pin holes are slightly smaller than the corresponding bushing holes, he explains. In contrast, Meusburger uses stepped leader pins to eliminate the distinction between a pin bore and a bushing bore. All plates of a given size and style are identical, with the same bored hole pattern and the same bored hole diameters, with the exception of one corner with a slightly smaller pin and bushing that helps orient mold halves or plates during assembly. For the supplier, this configuration reduces the complexity of managing inventory and helps respond nimbly to customers.

For toolmakers like BPM, there’s usually no need to send a drawing or wait on a quote. Buss and crew simply log into the supplier’s online catalog and choose from an array of standard, off-the-shelf plates and matching components. Along with helpful interface features (say, automatically rounding out an order with all the correct screws), a range of available sizes and configurations streamlines ordering of even the most complex mold bases. “You can tell right away what’s in stock and what everything is going to cost, and you’re not locked into a standard cookie-cutter mold,” Buss says. “Whatever the style—stripper plate, floating plate, double ejection, reverse ejection—we can usually get an order ready in 15 minutes or less.”

When the shipment arrives, BPM knows exactly what it’s getting. Making components truly interchangeable requires stringent manufacturing standards, and Meusburger holds all plates to published tolerances based on size. Some of the smaller plates, for instance, promise ±0.006 mm (0.0002 inch) for hole locations and ±0.025 mm (0.001 inch) for plate size. Such a guarantee is particularly reassuring for a retrofit job or in an urgent scenario like an engineering change, because plates require no resizing or other legwork to ensure a good fit, Buss says.

Precision is useful for new builds as well, Buss says, recalling plenty of past instances in which leader pin and bushing holes were located as far as 0.003 inch out of position on other bases. In fact, some bases might require spending half a day or more mapping hole locations, using that information to determine the best-fit center of the mold, and then using that information to determine where to machine parting line lock locations so that, as Buss puts it, “our precision alignment doesn’t fight against the leader pins and bushings.” None of this activity is required with the Meusburger system. Additionally, all plates are stress-relieved before they arrive. This reduces the risk of warping steel during initial machining operations like milling pockets and drilling waterlines.

Fully Committed
Not every BPM mold employs a Meusburger base. For one, some tooling is large enough to make shipping by air cost-prohibitive. Additionally, some customers require base components made to imperial standards, not metric.

Nonetheless, BPM’s use of the system has only expanded, and it may invest even further. At the time of this writing, the shop was eying its supplier’s H1000 clamping system, even though it would require a custom tombstone version for the Kitamura HX-400 HMC that handles most initial machining operations. Featuring a grid of precisely located fixture holes, the clamping system promises hassle-free locating, faster change-overs and full access to five sides of a plate, he says. In the meantime, pre-machined locating references ensure the shop can keep making the most of a system that essentially provides a head start on every build. “We configure what we want in minutes, it’s here in a few days, and it’s all manufactured to high standards,” Buss concludes.

Buss Precision Mold Makes Top 100 North American Moldmakers List


Buss Precision Mold Inc. was presented with the Plastic News Top 100 North American Moldmaker List. Everyone on the BPM Team is an integral part of our success, and share in being presented with this award.

Boeing 787 Dreamliner Cockpit Controls

Arrows show parts produced from tooling Buss Precision Mold Inc. manufactured.

Plastic Injection Mold Design Animation “Auto Edge Degating”

This animation shows an auto degated part with an edge gate when it is between slides.


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Plastic Injection Mold Design Animation “Two-Stage Ejection”

Buss Precision Mold Inc. would like to introduce you to our design animation service. Watch the video of a two-stage ejection taking place on a recent mold build.

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2-Stage Ejection Design Animation

NASA Space Shuttle Project

NASA Space Shuttle Project

Buss Precision Mold Inc. provides injection mold for key NASA Space Shuttle component.

Space Shuttle missions couldn’t continue until Buss Precision Mold Inc. provided the customer with an injection mold to make a key Space Shuttle component for the drag chute system. The drag chute is used to help reduce speed after touchdown.

Jonathan Buss President of Buss Precision Mold Inc. holds the 7″ Ø (175mm) molded ring used for sealing the “Chute Sabot” a cartridge which contains the drag chute during the mission until it is deployed upon landing.

The “Unit Die” injection mold was built with critical lead-time path, and produced production ready parts without any adjustment after the T-1 molding process was developed.

The drag chute “sabot seal ring” is deployed on every landing of the Space Shuttle, and is replaced after each use. NASA purchasing and engineering commended both Buss Precision Mold Inc and the molder for the ability to produce a finished part ahead of the expected time frame on the project.

New Sinker EDM

We have just installed a new Mitsubishi Sinker EDM. This machine keeps our EDM department on the forefront of technology and gives us an additional option for reliable after hours machining. In addition to increased speed and accuracy we now have the capability of creating finer EDM finishes. The easier automation reduces our setup time which will shorten your tool build times.

Mitsubishi EA 12V Advance

Mitsubishi EA 12V Advance

Welcome to Buss Precision Mold Inc. “The Moldmaker of Choice”

Welcome to Buss Precision Mold.  We are happy to announce the un-veiling of our new website.  This is the first of many news posts to come.  We hope to use this section of our website to keep you up to speed with what is going on here at Buss Precision Mold.  Please check back with us for case studies, news releases, new services, and more.

Please make sure to check out the portfolio section of our website.  You will find it loaded with detailed images of the work we have done and should help give you a better idea of what we are capable of.

Check out our Portfolio: http://www.bussmold.com/portfolio.html

You can also contact us online using our contact page or lookup directions to our office if you are planning a visit.  To contact us visit the following page: http://www.bussmold.com/contact/contact-us.html

Thanks for visiting and check back soon for more news!