October_2021_AMP_Digital

A D V A N C E D M A T E R I A L S & P R O C E S S E S | O C T O B E R 2 0 2 1 2 2 parameters are commercially available today for entities interested in printing gears or other high hardness applications, such as tools and dies where maraging steel, tool steel, or stainless steel are not ideal material choices. Alongside additive manufacturing, QuesTek is further enhanc- ing its ICME offerings. The company’s ICME cloud-based software suite, currently under development, will bring physics-based mod- els and ICME technologies directly to industry. The new suite will enable efficient modeling and design across all alloy systems to re- solve the most pressing challenges and support the design of new materials. ~AM&P Note: Co-authors include Chris Kantner, Jeff Grabowski, and Kerem Taskin of QuesTek Innovations LLC. For more information: Jeff Grabowski, manager of business de- velopment, QuesTek Innovations LLC, 1820 Ridge Ave., Evanston, IL 60201, 847.425.8241, jgrabowski@questek.com . References 1. https://www.serdp-estcp.org /Program-Areas/Weapons- Systems-and-Platforms/Surface-Engineering-and-Structural- Materials/Composites-Alloys-and-Ceramics/WP-1149. 2. C.J. Kuehmann and G.B. Olson, Integrated Computational Materials Engineering—Success Stories and Cul- tural Barriers Transformations, in “Selected Works of G.B. Olson on Materials, Microstructure, and Design,” ASM International and TMS, 2017. 3. C.J. Kuehmann and G.B. Olson, Computational Materials Design and Engineering, Mater. Sci. Technol., Vol 25, No. 4, p 472-487, 2009. 4. J.A. Wright, et al., Design, Development and Application of New High-Performance Gear Steels, AGMA Fall Technical Meeting, 09FTM14, 2009. 5. C.P. Kern, et al., Manufacturing and Processing of a New Class of Vacuum- Carburizing Gear Steels with Very High Hardenability, AGMA Fall Technical Meeting, 11FTM27, 2011. 6. A. Chavez, T. Baker, and J. Fetty, Future Advanced Rotorcraft Drive Sys- tem (FARDS) Full Scale Gearbox Demon- stration, American Helicopter Society 73rd Annual Forum Proceedings, 2017. Fig. 3 — Single tooth bending fatigue gears made of FerriumC64, processed via additive manufacturing on an EOS M 290 machine, heat treated and superfinished.