Center for Additively Manufactured Complex Systems under Extremes: Difference between revisions
m (Text replacement - "{{<span class="error">Expansion depth limit exceeded</span>" to "{{Organization") Tag: Reverted |
No edit summary Tag: Manual revert |
||
| Line 1: | Line 1: | ||
{{ | {{Program | ||
|ProgramName=Center for Additively Manufactured Complex Systems under Extremes (CAMCSE) | |||
|ProgramType=Program | |ProgramType=Program | ||
|OrgSponsor=University of Alabama at Birmingham | |OrgSponsor=University of Alabama at Birmingham | ||
| Line 13: | Line 14: | ||
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. | 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. | ||
{{ | {{Official URL (simple)|url=https://sites.uab.edu/camcse/}} | ||
==Goals== | ==Goals== | ||
| Line 54: | Line 55: | ||
==References== | ==References== | ||
< | <ref>{{Cite web |url=https://sites.uab.edu/camcse/ |title=Center for Additively Manufactured Complex Systems under Extremes |publisher=University of Alabama at Birmingham |accessdate=2025-02-10}}</ref> | ||
< | <ref>{{Cite web |url=https://www.uab.edu/news/research/item/12689-8-million-awarded-to-uab-to-establish-a-stewardship-science-academic-alliances-center-of-excellence-under-the-us-department-of-energy-s-national-nuclear-security-administration |title=$8 Million Awarded to UAB to Establish a Stewardship Science Academic Alliances Center of Excellence under the U.S. Department of Energy’s National Nuclear Security Administration |publisher=UAB News |accessdate=2025-02-10}}</ref> | ||
[[Category:Programs and initiatives]] | [[Category:Programs and initiatives]] | ||
[[Category:Programs]] | |||
[[Category:University of Alabama at Birmingham]] | [[Category:University of Alabama at Birmingham]] | ||
Revision as of 23:22, 3 March 2025
Stored: No results
| Type | Program |
|---|---|
| Sponsor Organization | University of Alabama at Birmingham |
| Top Organization | Department of Energy |
| Creation Legislation | Not specified; part of broader research initiatives |
| Website | Website |
| 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. |
| Program Start | 2023 |
| Initial Funding | $8 million grant from the U.S. Department of Energy’s National Nuclear Security Administration (NNSA) |
| Duration | 5 years (from 2023) |
| 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.
Goals
- Explore and understand the behavior of additively manufactured materials under extreme environments.
- Develop predictive models for material performance under high strain rates and pressure.
- Train the next generation of scientists and engineers in advanced materials science.
- Collaborate with national labs to translate research into practical applications.
Organization
CAMCSE is led by Dr. Yogesh Vohra, Professor of Physics at UAB, serving as the Principal Investigator. The center is organized as part of UAB's Department of Physics, with faculty from partner institutions like University of Massachusetts-Amherst, Stanford University, University of California-Irvine, and Tuskegee University contributing to its governance and research efforts. Funding comes from a significant grant by the NNSA, alongside potential industry partnerships.
Partners
- University of Alabama at Birmingham
- University of Massachusetts-Amherst
- Stanford University
- University of California-Irvine
- Tuskegee University
History
CAMCSE was established in 2023 with an $8 million cooperative agreement from the NNSA under the Stewardship Science Academic Alliances Centers of Excellence program. This initiative reflects a growing interest in how 3D-printed materials can be optimized for extreme conditions, building on UAB's strengths in materials physics and additive manufacturing. The center's establishment underscores a strategic focus on advancing national security through academic research.
Funding
The center was initially funded with an $8 million grant from the NNSA, intended to cover research activities over five years. This funding supports research, student training, and collaborative projects with national labs. There's no indication of additional funding beyond this period, but the nature of such research centers often involves seeking further grants or partnerships.
Implementation
Research at CAMCSE involves both experimental studies using high-pressure and high-temperature equipment and computer simulations. Implementation includes collaboration with DOE/NNSA labs for real-world application of research findings, workshops, and internships for students. The program's duration is set for five years, with no specific end date for the center's operations beyond this period.
Related
External links
- https://sites.uab.edu/camcse/
- No specific Wikipedia article for CAMCSE; general information on UAB can be found at wikipedia:University of Alabama at Birmingham
Social media
- There are no specific social media accounts for CAMCSE; updates can be found through UAB's social media.
References
- ↑ "Center for Additively Manufactured Complex Systems under Extremes". University of Alabama at Birmingham. https://sites.uab.edu/camcse/. Retrieved 2025-02-10.
- ↑ "$8 Million Awarded to UAB to Establish a Stewardship Science Academic Alliances Center of Excellence under the U.S. Department of Energy’s National Nuclear Security Administration". UAB News. https://www.uab.edu/news/research/item/12689-8-million-awarded-to-uab-to-establish-a-stewardship-science-academic-alliances-center-of-excellence-under-the-us-department-of-energy-s-national-nuclear-security-administration. Retrieved 2025-02-10.