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ORNL–General Atomics partnership on ceramic matrix composites
A memorandum of understanding has been signed by Oak Ridge National Laboratory and General Atomics Electromagnetic Systems (GA-EMS) with the objective of working together on advanced ceramic matrix composite materials for applications in extreme environments. Materials that can withstand extreme temperatures, radiation, corrosion, and mechanical stress are required in aerospace, defense, energy, and other sectors.
According to the agreement, the San Diego–based GA-EMS will use resources from ORNL’s Manufacturing Demonstration Facility to develop “scalable, efficient manufacturing techniques for extreme environment materials including precursors, fibers, composites, and coatings utilized in carbon/carbon (C/C), carbon/silicon carbide (C/SiC), and SiC/SiC composite systems.”
Glenn T. Seaborg
Nuclear Technology | Volume 9 | Number 6 | December 1970 | Pages 830-850
Radioisotope | doi.org/10.13182/NT70-A28715
Articles are hosted by Taylor and Francis Online.
The first synthetic actinide element, neptunium, was discovered in 1940. The last element of the actinide series, lawrencium, was created for the first time in 1961. These and the nine other intervening elements have added a new dimension to science, technology, industry, medicine, and politics in an extraordinarily short period of time. Each synthetic actinide element from atomic number 93 to atomic number 98 (with the exception of berkelium, atomic number 97) can now be manufactured in essentially any desired quantity, a truly remarkable achievement.
