The National Science Foundation awarded Prof. Hildreth a prestigious early CAREER award. The award, titled: CAREER: Understanding Sensitization and Corrosion Mechanisms in Additively Manufactured Metals for Improved Surface Finish, Mechanical Properties and Corrosion...
Colorado Office of Economic Development and International Trade (COEDIT) is funding research to help investigate the fatigue performance of additively manufactured components post-processed using our self-terminating etching technology. These funds will help us...
Air Force Research Laboratory is funding new research on sulfur and iodine-based self-terminating etching processes for GRCop-84. GRCop is an important copper alloys for rocket propulsion systems and we hope that this new approach will reduce the cost of...
https://neup.inl.gov/SitePages/FY18_NEET_Awards.aspx https://neup.inl.gov/FY%202019%20Abstracts/CFA-18-15251_TechnicalAbstract_2018CFATechnicalAbstractCFA-18-15251.pdf Our DOE proposal on combining our Dissolvable Support Technology with University of...
Our NASA-CAN proposal just got accepted. We look forward to working with Dr. Omar Mireles at NASA’s Marshall Space Flight Center as we develop this technology to aid NASA in their mission to explore the boundaries of space! Just a few more years and...
Our dissolvable metal support technology received a Defense Innovation Award at the 2017 Defense Innovation Technology Acceleration Challenges (DITAC) meeting in Tampa, FL last week (Oct. 3-5). The presentation is listed under H-Nano, the company we started to...
