{"id":15854,"date":"2019-05-08T06:17:26","date_gmt":"2019-05-08T06:17:26","guid":{"rendered":"https:\/\/mfgtechupdate.com\/?p=15854"},"modified":"2019-05-08T06:17:26","modified_gmt":"2019-05-08T06:17:26","slug":"conformal-cooling-ready-prime-time","status":"publish","type":"post","link":"https:\/\/mtuupdate.in\/mtu\/2019\/05\/08\/conformal-cooling-ready-prime-time\/","title":{"rendered":"Conformal cooling ready for prime time"},"content":{"rendered":"

Combining 3D Systems Cimatron\u2122 software, Direct Metal Printing on the ProX\u00ae DMP 200, and Geomagic\u00ae Control\u2122 into a single end-to-end workflow enabled Bastech to substantially reduce design time, cycle time and overall costs for injection-molded parts.<\/em><\/p>\n

Bastech demonstrates the 3D Systems\u2019 end-to-end process for conformal cooling in injection molding that cuts cycle times while maintaining constant temperatures; programming and shop time savings deliver major bottom-line benefits<\/p>\n

Since the inception of industrial injection molding, keeping an even temperature on the surface of the mold has been a constant challenge.<\/p>\n

In their quest to maintain even temperatures, manufacturers have used baffles, bubblers and heat pipes; they\u2019ve laminated blocks together and added complex drilling set ups to their molds.<\/p>\n

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Complex conformal cooling channels created with the comprehensive mold design toolsets of Cimatron\u2122 led to a 14% reduction in cycle time and 16% reduction in overall costs.<\/p><\/div>\n

Over the last decade or so, conformal cooling\u2014designing cooling channels that naturally follow the contours of the part to be produced\u2014has been positioned as a solution for controlling injection-molding temperatures. But conformal cooling adds new layers of design and production complexity to the moldmaking process, placing it beyond the means of most shops.<\/p>\n

\u201cRock-solid methodology\u201d <\/strong>
\nBastech, an Ohio-based one-source solution provider for shop floor, additive manufacturing services and equipment sales, has wrestled with temperature issues, but believes it has\u00a0 found a way to introduce a new level of simplicity, efficiency and economy to conformal cooling. The company\u2019s research is aided by its status as a 3D Systems Authorized Gold Partner, giving it access to the latest 3D printing technologies and expertise.<\/p>\n

Bastech\u2019s breakthrough, documented in two recent benchmark tests, is based on 3D Systems\u2019 Cimatron\u2122 mold-making software and its ProX\u00ae DMP 200 direct metal printing system. Simulations for the conformal cooling mold designs are performed using Moldex3D software, a partner with 3D Systems, and the completed DMP molds are inspected using 3D Systems Geomagic\u00ae Control software.
\nThe process represents an end-to-end manufacturing solution with easy integration between the digital and physical worlds, all powered by 3D Systems products.<\/p>\n

\u201cThe combination of powerful software designed to leverage the full capabilities of 3D printing, with printers that deliver a fully dense metal part with smooth surfaces and limited post processing provides a rock-solid methodology for building customized cooling molds,\u201d says Ben Staub, Bastech CEO.<\/p>\n

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A Bastech mold core insert with conformal cooling channels prototyped using 3D Systems\u2019 Stereolithography (SLA) technology and printed in maraging steel on the ProX\u00ae DMP 200.<\/p><\/div>\n

Automating design and analysis\u00a0<\/strong>
\nBastech\u2019s first benchmark compared two very similar parts in terms of volume, size and design configuration. One was designed with a conformal core and then 3D printed; the other was designed with a standard spiral baffle configuration and manufactured by conventional means.<\/p>\n

The conformal cooling design was created with Cimatron, expert CAD\/CAM software that covers the entire mold-making cycle\u2014from quoting to design, applying engineering changes, NC and EDM programming. The latest version of Cimatron includes cooling design and analysis capabilities that support both traditionally drilled cooling channels and conformal cooling channels for manufacturing using 3D printing technologies.<\/p>\n

Through close integration with Moldex3D, injection mold designers working in Cimatron have the ability to perform automated mold-filling analysis to optimize cooling channel layout.<\/p>\n

\u201cThe combination of Cimatron and Moldex delivers expert software to help less-experienced engineers create better-quality designs,\u201d says Staub. \u201cThis is a major consideration as the demand for experienced tool-makers is much larger than the dwindling supply.\u201d<\/p>\n

\u201cDesigning for 3D printing requires an understanding of structural support design to accomplish true requirement-based design as well as reducing material cost and build time,\u201d adds Scott Young, Bastech\u2019s Engineering Manager. \u201cThis type of expertise is built within the Cimatron software to allow our designers to think about design without having to worry about navigating through the CAD package to define complex internal channels.\u201d<\/p>\n

Big time and cycle savings
\n<\/strong>Bastech\u2019s design for the first benchmark was a tapered helix that is positioned on the inside of a spacing cone used for industrial assemblies. Conformal cooling channels were created by rotating a teardrop configuration so that one side was parallel to the outer surface of the core while maintaining a constant distance from it. By running the cross-section along a tapered helix, Bastech was able to design geometry that the ProX DMP 200 could build in a single run.<\/p>\n

The design for the 3D printed mold took two days and was built on the ProX DMP 200 in three days. To maximize its productivity, Bastech combined the 3D print run for the mold with parts required for other Bastech projects.<\/p>\n

The ProX DMP 200 is a cost-effective alternative to traditional manufacturing processes, offering reduced waste, greater speeds for production, short setup times, very dense metal parts, and the ability to produce complex assemblies as a single part.<\/p>\n

\u201cIt\u2019s a tool that enhances our capabilities on the molding side,\u201d says Staub. \u201cIt gives us higher turnaround tooling and solves bottleneck problems in the shop. We can save 30-40 hours per mold by eliminating EDM and drilling, and drastically reducing CNC and polishing work.\u201d<\/p>\n

For the reverse-flow helix core, the design and analysis in Cimatron software, combined with 3D printing on the ProX DMP 200, saved more than 40 hours of programming and shop time. When all costs were taken into consideration, the 3D printed core yielded a net savings of $1,765 (18%) over conventional methods, according to Young.<\/p>\n

More importantly, the conformal cooling mold maintained a lower temperature throughout the run and reduced cycle time by 22%.<\/p>\n

\u201cCycle time is nearly everything in injection molding, with the ability to consistently control temperature a close second,\u201d says Staub.<\/p>\n

\u201cThe more consistently we can hold temperature, the more consistently we can mold quality parts,\u201d says Young. \u201cEliminating warping due to temperature variation and lowering cycle time represent huge performance gains.\u201d<\/p>\n

Savings beyond the core
\n<\/strong>In a second benchmark, Bastech went beyond the conformal core to design a complete core, cavity and slide-mold set for 3D printing. In this case, the goal was to maintain the same temperature (110F) between the conventional and conformal designs to see how it would affect cooling and cycle time results.<\/p>\n

Once again, major time savings were recorded for programming, machining and polishing, and EDM was completely eliminated in the conformal cooling design. Automation within Cimatron software reduced design time from 30 hours to just seven for the conformal cooling mold. Total cost savings for the 3D printed mold was $2,505, a 16% savings.Cooling time was reduced from 10.5 seconds for the conventional mold to 7.5 seconds for the conformal mold, and the all-important cycle time was reduced by 14%.<\/p>\n

\u201cEven though the temperature remained the same for both the conventional and the conformal cooling designs, the conformal design forced more liquid through a greater surface area, making it more efficient in cooling the mold,\u201d says Young.<\/p>\n

Major bottom-line impact\u00a0\u00a0\u201cThe desire for better cooling techniques has been hanging out there for a long, long time,\u201d says Young. \u201cWe now have the software to help mold-makers make better decisions about how to set up their cavities, cores and inserts, then bring them into reality with direct metal 3D printing.\u201d<\/p>\n

\u201cWith traditional cooling for injection molding there is no perfect situation,\u201d says Staub. \u201cYou can only drill holes in certain places and you can\u2019t curve holes around channels like you can with conformal cooling designed for 3D printing. Now we no longer have to accept compromises in conformal cooling designs.\u201d
\nBastech purchased the ProX 200 DMP system through a grant from the state of Ohio and the University of Dayton\u2019s Research Institute, so part of the company\u2019s mission is to share results with the industrial community. Staub hopes that Bastech\u2019s benchmark efforts will show shops of all sizes that there are solid, end-toend solutions available to achieve conformal cooling.<\/p>\n

\u201cA lot of toolmakers will need to adopt these 3D technologies to improve their shops,\u201d he says. \u201cWe want to share our successes so other shops can see that not only can it be done, but it can be done in a way that has a major impact on your bottom line.\u201d<\/p>\n

 <\/p>\n","protected":false},"excerpt":{"rendered":"

Combining 3D Systems Cimatron\u2122 software, Direct Metal Printing on the ProX\u00ae DMP 200, and Geomagic\u00ae Control\u2122 into a single end-to-end workflow enabled Bastech to substantially reduce design time, cycle time and overall costs for injection-molded parts. Bastech demonstrates the 3D Systems\u2019 end-to-end process for conformal cooling in injection molding that cuts cycle times while maintaining<\/p>\n

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