Manufacturer of Lens-Cutting Machines Focuses on Cost Savings With Graphite-Mold Casting Process


A part that was, until recently, made up of four individually machined pieces is now being produced as a single, economical casting that is more rigid and more stable than the old four-part assembly.

National Optronics (, in Charlottesville, Virginia, produces high-precision machines for surfacing and finishing plastic eyeglass lenses. In use at optical laboratories and stores such as Walmart and LensCrafters, these reliable and easy-to-use machines include blockers, tracers, edgers, and surface generators.

In 2008, in an ongoing effort to reduce manufacturing costs, buyer Andy Irvine and his colleagues at National Optronics focused on a drill support being made in the machine shop at the Charlottesville plant.

"There had to be room for improvement," Irvine recalls. "To make just one of these steel parts, the shop was machining four sections separately and screwing them together. We figured there had to be a better way to make the part -- perhaps even from another material."

The part supports a drill inside the company's 7E Edger, an automated 3-axis, patternless edger with exceptional accuracy and speed. The machine uses patented dry-cutting technology to trim polycarbonate, Hi-Index, CR-39, and Trivex eyeglass lenses to fit a wide range of frame styles. For rimless eyeglasses, the 7E drills tiny screw holes in the lenses. Its user-friendly software interfaces with related equipment and stores lens programs for each customer -- programs that allow fast, easy cutting of duplicate lenses if the customer orders a second pair of glasses.

Irvine and National Optronics Engineer Steve Hovanic consulted Kirk Barrett, regional sales manager for Graphicast, Inc.. Since 2006, Graphicast, a single-source contract manufacturer based in Jaffrey, New Hampshire, has been making various parts for National Optronics, using graphite molds to cast parts from ZA-12, a zinc-aluminum alloy that is harder, stronger, and more durable than aluminum, brass, bronze, or plastic. Graphicast offers in-house design services as well as tooling, net shape casting, secondary machining, finishing, and CMM part inspection.

Barrett studied the drawings for the four-piece assembly, suggested National Optronics produce them as a single casting, and quoted a competitive price, according to Irvine. So began a fruitful collaboration.

With his technical experience and cost-control background, Irvine thinks like an engineer and was the logical choice to serve as the coordinator between National Optronics and Graphicast. After back-and-forth design discussions, the two companies agreed on a new design optimized for the casting process. Graphicast produced a prototype, then delivered the first actual drill supports in April 2009. Since then, National Optronics has ordered four to five production runs per year, with 50 or 60 parts per run.

According to Irvine, the new production method saves National Optronics about $11,000 a year. These savings result from lower costs for raw materials, machining, and assembly.

"The cast part is a drop-in replacement for a part that used to be quite time-consuming to make, plus it is more rigid, since it is all one piece," says Irvine. "It's a better solution all around."

Irvine continues: "It is also a perfect example of how involving a knowledgeable supplier such as Graphicast early in the design stage can pay big dividends for the manufacturer."

Graphicast's casting process is especially well suited for annual production runs of 200 to 20,000 parts. For a typical medium-volume production run, the cost to machine each part from scratch is too high, yet the quantity is too low for high-volume manufacturing methods to be cost-effective. Based on total acquisition cost (cost-per-part times volume plus tooling costs), the graphite mold/ZA-12 casting process is said to be a lower-cost alternative to CNC machining, die casting, sand casting, and investment casting for such medium-volume production runs. According to the company, the high accuracy and lustrous surface finish of ZA-12 parts virtually eliminate additional finishing steps required with other casting techniques, resulting in a much lower total cost per part.

Tooling costs for the graphite mold/ZA-12 process are much lower than for die casting or injection molding because graphite costs far less than tool steel and requires no heat treating. Graphite's exceptional machinability further shortens the moldmaking phase. In fact, a graphite mold can often be produced weeks faster than a die-casting mold, and for about one-fifth the cost. And because a graphite mold will not warp or corrode, it can be stored indefinitely and reused. Typical turnaround time from finished CAD design to production samples is only four to six weeks.

Graphicast says that it obtains the best possible casting results by using proprietary automated casting machines that fill each mold from the bottom up. This minimizes turbulence in the molten metal, thereby greatly reducing porosity. Using a process controller to simultaneously control fill rate, cycle time, and temperature, these machines yield parts of exceptional quality and repeatability at a relatively low cost per part.

Equally important to the process are the attributes of the ZA-12 alloy, which has excellent castability at a relatively low temperature. Because ZA-12 is spark-proof, it can be used in hazardous environments, and since it cannot be magnetized, it is ideal for electronic shielding. Castings have a density approximately the same as cast iron and can include contours, variations in surface elevations, holes, and other precise features.

ZA-12 parts require no heat treating, and their typical surface finishes of 63 microinches or less are reportedly better than finishes from other casting processes. In many cases, ZA-12 parts require little or no machining, but for non-castable features, ZA-12 is machined as easily as brass or bronze and more easily than cast iron or aluminum, the company says. Although the drill support for the National Optronics 7E Edger needs some secondary machining after it comes out of the mold, it needs far less than was required by the previous method of production.

ZA-12 castings have a bright, corrosion-resistant finish that requires no coating or other preparation. They can be chromated, plated, painted, powder-coated, or finished with electro-coated acrylic or epoxy as necessary.

In these times of economic uncertainty, casting ZA-12 alloy with a graphite mold offers original equipment manufacturers a way to limit the risks associated with product introductions or redesigns. Because a graphite mold can be modified quickly and economically, it provides manufacturers with a great deal of flexibility in debugging or improving products while still controlling costs, according to Graphicast, which calls this "a major advantage over traditional casting methods."

Customers who anticipate high-volume production of a part should realize that if the part is redesigned for any reason, a high-volume process, such as steel-mold die casting with its large up-front investment, no longer makes financial sense. With a graphite mold, less is at stake: The way Graphicast sees it, why not minimize the financial risk by starting with a shorter run of ZA-12 parts? If forecasted end-product sales do not materialize, the Graphicast process still yields a low total cost per part at low production volumes. On the other hand, if sales exceed forecasts, the process can be easily scaled up to handle increased volumes.

"Graphicast has been great to work with," says Irvine. "They were very helpful up front in the design effort, and they have provided valuable technical support at every stage in the process. On the purchasing and production side, working with them has been seamless, like clockwork: We simply place an order and forget it. We never have to worry about it again -- they always ship on time."

For more information, contact Graphicast, Inc., P.O. Box 430, 36 Knight Street, Jaffrey, NH 03452, TEL: (603) 532-4481, FAX: (603) 532-4261,

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