M. Carreón-Garcidueñas Source Confirmed

OverviewAI-generated summary

M. Carreón-Garcidueñas's research focuses on the application of thermoelectric and electromagnetic sensing methods for material characterization and defect detection in metallic biomaterials and welding applications. This work involves investigating residual stresses in materials subjected to processes like waterjet peening, utilizing thermoelectric magnetic sensing techniques. Additionally, the research explores the electromagnetic sensing of corrosion at different microstructural phases within medical-grade titanium alloys, such as Ti-6Al-4V ELI. The determination of elemental content, like aluminum in welding metal, and its correlation with mechanical properties is also a subject of study.

Further research interests extend to the measurement of elastic constants in metallic alloys using ultrasonic methods. Carreón-Garcidueñas also leads federally funded projects focused on plasma polarization in perovskites for CO2 capture and conversion, and the rational design of alloys for plasma-assisted catalytic ammonia production. Another NSF-funded CAREER project investigates cold plasma-intensified perovskite membrane technology for CO2 utilization. With an h-index of 5 and 13 publications, Carreón-Garcidueñas has received substantial funding from the National Science Foundation, totaling nearly $1 million for these research endeavors. Key collaborators include Maria L. Carreon.

Metrics

• h-index: 5
• Publications: 13
• Citations: 131