CAMCSE
Center for Additively Manufactured Complex Systems Under Extremes
CAMCSE is supported by
About Us
About CAMCSE
The scientific goal of the Center for Additively Manufactured Complex Systems under Extremes (CAMCSE) is to advance fundamental understanding of how Additively Manufactured Compositionally Complex Systems respond to extreme environments of pressure, temperature, and strain rates. Specifically, we seek to reveal the nature and mechanisms underlying their phase transformation, microstructure evolution, strength, and plasticity.
Stay In-the-Know
CAMSCE Highlights
CAMCSE UMass Senior Design Team
Joshua Gelfond, James White, George Olisedeme-Akpu, Thebeau Paul – Project Title: “Miniaturized sample mount with liquid nitrogen cooling for cryogenic micro-ballistic testing.”
Congratulations to Anirudh Hari
Congratulations to Graduate Student, Anirudh Hari (Stanford University) for recognition for Outstanding Poster at the 2024 SSAP Symposium. (Mentor, Dr. Leora Dresselhaus-Marais)
Static and shock compression studies of eutectic high-entropy alloy AlCoCrFeNi2.1 to ultrahigh pressures
https://doi.org/10.1063/5.0192103
Partners
Academic Partners
Stanford
University
Learn About CAMCSE
Professional Development
Co-Advisement/Skills Development
Faculty from partner institutions serve on graduate committee of CAMCSE students as well as provide mentoring, professional development, and skills training.
Mentoring
Assignment of a collaborative contact at DOE/NNSA Lab/sites.
Mandatory Summer Workshops
Team-taught workshops in (a) Additive Manufacturing, (b) Machine Learning in Materials Science, (c) Static and Dynamic Compression of Materials and (d) Measurements and Modeling of Mechanical Behavior under Varying Strain Rates.
Internships
8-week summer internship for four students/year at LANL, LLNL, or SNL.
Bench Strength Development
Postdocs and early career faculty bought into leadership roles within CAMSCE and provided the training and support to prepare them to lead team-based science efforts.
Leadership/Communication Training
CAMCSE students/postdocs present at SSAA symposium.
Participate in our
Workshops
- Additive Manufacturing
- Machine Learning in Materials Science
- Static and Dynamic Compression of Materials
- Measurements and Modeling of Mechanical Behavior under Varying Strain Rates
Beginning Summer 2024
Stay Informed Through
Our Research
Bridging Fundamental Knowledge Gaps by CAMCSE:
- Construct phase diagrams of AM CCSs under static and dynamic compression to 100 GPa and 2300 K (high pressure, high temperature).
- Elucidate microstructure evolution and dislocation kinetics in AM CCSs under dynamic compression.
- Understand dynamically localized plastic deformation and strength of AM CCSs under microballistic impact.
- Reveal the effects of grain structure and local chemical order on microstructure change and phase transformation under high strain rate from 104 to 109 s-1.
Events
Stay up to date with our latest events with our events calendar and annual symposium.
Video Description
LIPIT: Laser-induced projectile impact test” (LIPIT)
Submitted by
Jae-Hwang Lee (UMass)
Video Description
Diamond Anvil Cell for CAMCSE
Submitted by
Yogesh Vohra (UAB)
Video Descriptions
Laser powder-bed fusion video. The machine model is EOS M290.
Submitted by
Wen Chen (UMass)
