Center for Additively Manufactured Complex Systems under Extremes: Difference between revisions

Center for Additively Manufactured Complex Systems under Extremes (view source)

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 |TopOrganization=Department of Energy
 |CreationLegislation=Not specified; part of broader research initiatives
-|Purpose=CAMCSE is dedicated to advancing the fundamental understanding of how additively manufactured materials, particularly complex systems, behave under extreme conditions like high pressures, temperatures, and strain rates. The center focuses on material phase transformation, microstructure evolution, and mechanical performance for applications in national security, aerospace, and energy sectors.
+|Purpose=CAMCSE studies additively made materials under extreme conditions, exploring phase changes and performance for security, aerospace, and energy uses.
 |Website=https://sites.uab.edu/camcse/
 |ProgramStart=2023
 |InitialFunding=$8 million grant from the U.S. Department of Energy’s National Nuclear Security Administration (NNSA)
 |Duration=5 years (from 2023)
-|Historic=false
+|Historic=No
 }}
 The '''Center for Additively Manufactured Complex Systems under Extremes (CAMCSE)''' at the University of Alabama at Birmingham (UAB) is dedicated to advancing the fundamental understanding of how additively manufactured materials, particularly complex systems, behave under extreme conditions like high pressures, temperatures, and strain rates. It seeks to uncover the mechanisms behind phase transformation, microstructure evolution, and mechanical performance to enhance materials used in national security, aerospace, and energy applications.