We congratulate Dr. Rich Martukanitz on his retirement this year. Rich was an integral part of the realization of CIMP-3D, widely recognized as a national leader in fundamental and applied R&D for Additive Manufacturing. Dr. Ted Reutzel will serve as Acting Director while a national search is conducted.
Dr. Masahiko Mori, president of DMG MORI, visited Penn State and recieved the 2018 Pioneer in Hybrid Additive Manufacturing Award sponsored by CIMP-3D. Dr. Mori gave a lecture on the evolution of manufacturing and emerging new technologies.
Dr. DeMeter's Defense University Research Instrumentation Program (DURIP) proposal was awarded for 'Super Finishing of Printed Metallic Parts for High Performance Naval Systems'. This award will be used to install a state-of-the-art finishing laboratory within the Penn State FAME Laboratory, and according to De Meter “this award will enable Penn State to play a vital role in meeting critical tolerances of AM parts through advanced secondary machining process technology, such as abrasive and electro-chemical processing”. The award will be used to acquire several advanced finishing systems having a value of over $500,000.
Congratulations to Ed DeMeter and his team; Rich Martukaniz, Sauraph Basu, Guha Monogharan, Hojong Kim, Todd Palmer, Ted Reutzel, Tim Simpson, Jingjing Li, and Robert Voigt
CIMP-3D, DARPA, and America Makes are pleased to announce the winners of the first Modeling Challenge for Additive Manufacturing. Based on comparisons between experimentally obtained data and the submitted simulation results, the team representing Carnegie Mellon University was awarded the highest ranking, followed by a team lead by Applied Optimization, Inc.
The Carnegie Mellon University team was comprised of: Professor Shi-Chune Yao of the Mechanical Engineering Department, Professor Anthony Rollett of the Materials Science & Engineering Department, Professor P. Chris Pistorius of the Materials Science & Engineering Department, and Mr. Patcharapit Promoppatum of the Mechanical Engineering Department.
The Applied Optimization team consisted of Dr. Anil Chaudhary of Applied Optimization and Dr. Suresh Babu of the University of Tennessee, Knoxville. The collaboration between Applied Optimization and the University of Tennessee was made possible through an NASA STTR program.
The two awardees were able to fairly accurately represent the complex motion of the heat source associated with the build, while providing thermal data that reasonably agreed with experimental results. The thermal data enabled the teams to ascertain the operable transformations associated with the nickel-based alloy and approximate the resultant microstructures. A technical publication of the results from the Modeling Challenge, along with experimental data, is being planned.
An additively manufactured titanium link and fitting for a V-22 engine nacelle was successfully flown during a test on July 29th at the Naval Air Systems Command (NAVAIR) in Patuxent River, Maryland. The Penn State Applied Research Lab and CIMP-3D were heavily involved in the development of the manufacturing process required to qualify these components for flight.
Funds for a DMG MORI LASERTEC 65 3D were awarded by the Office of Naval Research (ONR) through a Defense University Reserach Instrumentation Program (DURIP). This system will be located at CIMP-3D to begin the development of hybrid additive manufacturing technology.
More information in the links below:
The CIMP-3D Additive Manufacturing Demonstration Facility at Penn State Innovation Park announced today that it has begun to expand and renovate its laboratory to include a brand new Powder Bed Fusion Lab as well as a dedicated university lab for colaboration within Penn State.
The expansion also includes the addition of two new systems; the 3D Systems ProX 320 and the Objet 350 Connex3 by Stratasys.
CIMP-3D is proud to announce a ground-breaking partnership with 3D Systems. This new collaboration serves as the foundation for the development, advancement, and qualification of cutting-edge high-resolution additive manufacturing technologies.