We are proud to announce that two of our group members, Xiaoliang Yan and Akshar Kota, have been awarded the Fall 2024 Topping Fellowships. These awards highlight their hard work and significant contributions to both research and mentorship within our community. We extend our heartfelt congratulations to Xiaoliang and Akshar for their well-deserved recognition.
Prof. Shreyes N. Melkote has been selected as an awardee of the Milton C. Shaw Manufacturing Research Medal
The Milton C. Shaw Manufacturing Research Medal established in 2009, recognizes significant fundamental contributions to the science and technology of manufacturing processes. https://www.asme.org/about-asme/honors-awards/achievement-awards/milton-c-shaw-manufacturing-research-med
Prof. Shreyes N. Melkote Wins Research Engagement Award
Shreyes Melkote, who holds the Morris M. Bryan, Jr. Professorship in Mechanical Engineering in the George W. Woodruff School of Mechanical Engineering, was recently honored with the Georgia Institute of Technology’s outstanding achievement in research engagement and outreach award. The annual award is given by Georgia Tech’s Office of the Executive Vice President for Research. […]
GTMI Seminar – Materials and Processes for Additive Manufacturing
Abstract: Additive manufacturing (AM), or 3-D printing, has advanced beyond rapid prototyping to the manufacturing of structural and functional components. AM enables a new design space to realize increased capabilities. However, unlike conventional materials, there are highly coupled and complex design, structure, process and performance relationships for AM parts. While the general use of AM […]
Paper Acceptance – ASME Journal of Manufacturing Science and Engineering
Title: In-situ Analysis of the Effect of Ultrasonic Cavitation on Electrochemical Polishing of Additively Manufactured Metal Surfaces Abstract: The effects of a hybrid process that combines ultrasonic cavitation and electrochemical polishing on the electrochemical behavior and the resulting surface characteristics of additively manufactured 316L stainless steel were investigated. In-situ potentiodynamic scans and electrochemical impedance spectroscopy […]