Mechanical and Aerospace Engineering at the University of Florida’s Post

University of Colorado Boulder | Preventing Perovskite Panel Degradation ⚡ Mike McGehee unveils key insights into: -Overcoming challenges in module manufacturing with perovskites. -Addressing issues in laser scribing and thermal damage. -Optimizing monolithic tandem structures for higher efficiency. -Innovative approaches to ensure stability under reverse bias. 📥 Discover more in the presentation: https://t.ly/ZjMr9 

EHT Nanosecond pulsers are enabling an improved understanding of plasma discharges on the nanosecond scale.

We had the honor of contributing an article to Mikroniek, the magazine published by the Dutch Society for Precision Engineering. In our article, we dive into ways to reach thermal stability in electromagnetic actuators. With Lorentz actuators nearing their limits, we argue that reluctance actuators offer a promising path forward. You can find our article in the upcoming 6th edition of the magazine, titled "Multi-Physics in Precision Engineering", available from 13 December.

PR Research: Highly polarized energetic electrons via intense laser-irradiated tailored targets. The particle-in-cell simulations demonstrate the feasibility of highly polarized electrons with polarization of 60% and charge of 8 pC. https://lnkd.in/g3sgeFMj

Involved in R&D in energy storage systems for robotics and automation? This may interest you… 19th Int’l Symposium on Solid Oxide Fuel Cells (SOFC-XIX), Stockholm, Sweden, July 13-18, 2025, Münchenbryggeriet. SOFC-XIX abstract deadline: February 7, 2025 Join us for SOFC-XIX. This international symposium brings together scientists, engineers, and researchers from academia, industry, and government laboratories to share results and discuss issues related to solid oxide fuel cells and electrolyzers. SOFC-XIX is a forum for learning and exchanging the latest scientific and technical developments relating to SOFCs and SOECs. Papers are solicited on all aspects of solid oxide fuel cells and electrolyzers. Following is a partial list of topics to be addressed: - Materials for cell components (e.g., electrolyte, electrodes, interconnection, and seals) - Fabrication methods for cell components, complete cells, and stacks - Cell designs, electrochemical performance, and modeling - Stack designs and their performance - Utilization of different fuels with or without reformation - Stationary power generation, transportation, and military applications - Prototype SOFC and SOEC systems, field test experience, cost, and commercialization plans are highlighted in a half-day industry session. Further details:  https://lnkd.in/gqcnF9C7

This is related to my past research experience.. great to see Spin-orbit and magnetic switching in devices .. #spintronics #magnetism

My 2024 ECS - The Electrochemical Society Colin Garfield Fink Research Fellowship Report is out! This work (still in progress) leverages the unique sensitivity of neutrons to Li and X-rays to Cu to investigate whether mechanical instabilities, such as fracture widening, are driven by electrochemical forces like current density and Li penetration in anode-free solid-state batteries. Thanks ECS for supporting this idea and funding these experiments at ILL - Institut Laue Langevin in collaboration with Princeton Engineering (Craig Arnold, M Shaharyar Wani) and LEPMI Laboratory Grenoble (Claire Villevieille). #simultaneousneutronandXraytomography #solidstate #batteries Link: https://lnkd.in/eUDNKbju.

Exciting news! Our research on "The impact of dynamic loading and cyclic temperature variations on the damping efficiency of particle dampers" has just been published! I'm thrilled to share this work with the world, and I'm incredibly grateful to my co-authors, Fabian Duvigneau, Dr.-Ing. Alexander Bueschel, Hartmut Göhler, Ulrike jehring, Daniel Juhre, an Elmar Woschke, for their invaluable contributions. Their expertise and collaboration were instrumental in bringing this research to fruition. I would also like to express our thanks to Otto-von-Guericke University Magdeburg for providing the resources and support that made this project possible. Our research could provide particle dampers as a fascinating passive damping solution for industrial applications! We've demonstrated how the vibration attenuation capabilities of particle dampers evolve under high-amplitude dynamic loads over several months. Discover the potential of this innovative technology to enhance industrial performance. Head over to https://lnkd.in/eDUsDtwu to learn more! I'd love to hear your thoughts and feedback in the comments below. #research #OvGu #particledampers #vibrationcontrol

📑 Chalmers University of Technology scientists have recently successfully observed H/D trapping within the microstructure of a high-strength steel using Atom Probe Tomography without cryogenic transfer. A leap forward in hydrogen embrittlement studies! Read the application note for details! https://ow.ly/lASM50QLnvb

New paper alert - Advances in Shell Structure Research! Mingchao Liu's latest research on snap-through eversion of axisymmetric shells under contact indentation, just published in Proceedings of The Royal Society part A. This work builds on our previous 1D shell model, advancing the analysis and design of shell structures in both natural and engineering contexts. #Whatsnew? Using numerical continuation, Mingchao Liu and colleagues uncovered the snap-through behaviour of these structures under various contact scenarios. Key finding: Snap-through eversion occurs at a critical state with universal configurations, consistent across indenter sizes, captured with a simple geometric model. #Whydoesthismatter? These insights bridge theory with real-world applications—helping understand biophysical phenomena like cell fusion and improving the design of soft actuators and robots. This research paves the way for more efficient, responsive, and cost-effective technologies. #RealWorldImpact For engineers, the model reduces trial-and-error in the design cycle, saving time and resources. It provides a practical tool to predict critical instabilities, making complex shell designs more manageable and reliable. This is an excellent example of how collaboration drives impactful engineering solutions. Links to the paper and code below We're proud of the innovation at the School of Engineering, University of Birmingham. If you're passionate about engineering and want to join a community pushing boundaries— join us! https://lnkd.in/eqmXxsnP #EngineeringResearch #ShellStructures #ProceedingsRoyalSociety #SoftActuators #Robotics #MechanicalEngineering #UniversityOfBirmingham #SchoolOfEngineering #STEM #Collaboration #NumericalContinuation #FutureOfEngineering #JoinUs