Atlas 3D’s Sunata™ Software Turns 3D Metal Printing Designs Into Successful Builds…Every Time!

The new Sunata™ software from Atlas 3D ends the trial-and-error guesswork of metal additive manufacturing. Sunata, designed to work seamlessly with Direct Metal Laser Sintering (DMLS) printers, automatically chooses the best orientation for a part and generates the necessary support structures for a successful build, eliminating the expensive and time-consuming simulation process that plagues 3D design engineers.

The new Sunata™ software from Atlas 3D ends the trial-and-error guesswork of metal additive manufacturing. Sunata, designed to work seamlessly with Direct Metal Laser Sintering (DMLS) printers, automatically chooses the best orientation for a part and generates the necessary support structures for a successful build, eliminating the expensive and time-consuming simulation process that plagues 3D design engineers.


Sunata™ Offers Accuracy and Speed
Sunata users download their designs directly into the cloud-based program and automatically receive the optimal orientation and associated support structures. There are no servers to install and configure; no IT support is needed. Users simply import the .STL CAD file and Sunata does the rest.

Sunata's accuracy and speed comes from its patent-pending Thermal Circuit Network (TCN). The TCN scientifically parses the print design into thermally similar layers, which are then divided into thermally similar segments. The TCN applies its thermal modeling algorithm to arrive at the optimal orientation and support structure for that design after running it through 100 different orientations. Other simulation and orientation programs force users to "guess" at the optimal orientation and support structures and then simulate the print process for a proposed solution. In contrast, the TCN scientifically determines the optimal orientation and support structure to yield a successful 3D build the first time and every time.

Sunata™ Offers Quality and Print Time Options
The technology group at ITAMCO (Indiana Technology and Manufacturing Company) worked with the developers at Atlas 3D to create Sunata. The team appreciated the need to balance minimal distortion with reduced print times. They wanted to profitably print viable components with additive manufacturing, not just print prototypes.

Sunata gives users the ability to scale their requirements from next-to-zero distortion with longer print times, to more tolerable distortion with shorter print times. And since Sunata optimally orients and supports the part for printing, it can accurately provide the total print time and amount of sintered material the design requires, thereby providing accurate cost-to-print data. Knowing this information, in combination with eliminating waste and rework, enables users to profitably print their designs.

Sunata™ Builds With New QuesTek Ferrium® C64®
Sunana works with many metal feedstocks and it is the first additive manufacturing software platform to test the new Ferrium C64 (AMS 6509) metal powder from QuesTek Innovations. Ferrium C64 is a high-strength, high-surface hardness, and highly fracture- resistant carburizable steel that also has high-temperature resistance and hardenability. C64 steel is a performance upgrade from 9310, X53 (AMS 6308), EN36A, EN36B, EN36C and 8620. It can achieve a surface hardness of 62-64 Rockwell C (HRC) via vacuum carburization.

ITAMCO is already manufacturing components with an EOS M 290 3D printer and Sunata, and the company is especially interested in the QuesTek metal power. One leading application for Ferrium C64 steel is for demanding Bell Helicopter and Sikorsky transmission gearboxes. Under an Army-funded Future Advanced Rotorcraft Drive System (FARDS) program, Bell and Sikorsky are evaluating and qualifying Ferrium C64 steel to displace Alloy X53 (AMS 6308). Benefits would include lighter-weight gear components, increased power density of the helicopter transmission, greater temperature resistance, and better pitting and corrosion resistance. In addition, QuesTek is evaluating and demonstrating Ferrium C64 for the Additive Manufacturing of aerospace gears and fatigue-driven applications under an Army-funded SBIR Phase I program. Other possible applications for the metal powder include racing transmission gears, gears with integral bearing races, and integrally geared drive shafts where durability, compactness, weight savings, high-temperature resistance and high-surface fatigue resistance are valued. Ferrium C64 steel can also offer increased performance and reliability of wind turbine transmission gearboxes, thus reducing maintenance costs and downtime and increasing reliability.

Given that ITAMCO provides open gearing and precision machining services to many heavy-duty industries including Aviation, Energy, Mining, Off-Highway Vehicles, and Marine, Sunata and Ferrium C64 could lead to continued advancement in ITAMCO's additive manufacturing program.

"As metal additive printing continues to grow, so too does the need to add new printable powders," said Chad Barden, CEO of Atlas 3D. "The thermal characteristics of these new powders; however, present their own unique set of challenges. ITAMCO is one of many Atlas 3D customers to benefit from our forward-looking move to add this exciting new material to the list of available metals in Sunata. As with all of the other materials, our customers can successfully print their designs with the touch of a button…every time. Without question, Sunata bring certainty to the arduous, trial-and-error process associated with the introduction of a new powder."

Jeff Grabowski, QuesTek's Manager of Business Development, added this: "ITAMCO is a long-time manufacturer of high-quality gears and is an early adopter of Ferrium C64 steel powder for Additive Manufacturing applications. Atlas 3D's incorporation of Ferrium C64 steel into the Sunata system will enable others interested in C64 to more efficiently begin building components with this high-performance steel."

About Atlas 3D
In 2015, ITAMCO (Indiana Technology and Manufacturing Company) was a recipient of an America Makes funding award. The award funded a collaborative effort between ITAMCO, Notre Dame University, Johnson and Johnson, and the University of Pittsburgh. Over $2.75M, 3,000 validation runs, and two years of development later, ITAMCO incorporated Atlas 3D to commercialize the resulting 3D manufacturing software named Sunata™. Today, Sunata is used at Fortune 100 companies, service bureaus, government labs, major universities, and 3D printer manufacturers. Delivered as secure cloud-based software, Sunata is easy to use, scalable, accurate, and fast. Learn more about Atlas 3D at http://www.atlas3d.xyz or call (574) 914-4447.

About QuesTek Innovations
QuesTek is a global leader in the field of Integrated Computational Materials Engineering (ICME) and has proven that new, ultra high-performance alloys and other materials can be developed much faster and at lower costs than by traditional trial-and-error methods. With QuesTek's Materials by Design® methodology, the company designs and brings to market never-before-conceived alloys, coatings and other materials for demanding applications in Aerospace, Oil & Gas, High-Performance Racing, Medical and other industries. Visit http://www.questek.com for more information.

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