Our approach represents a groundbreaking solution that accurately predicts the physical dynamics driving material damage from corrosion. This cost-effective numerical simulation not only helps prevent degradation, but also ensures system-wide safety for the next generation of aerospace systems. It also promotes the innovation of new materials, pushing the boundaries of aerospace technology even further.

By supporting our project, you are contributing to the development of corrosion modeling techniques that have implications far beyond aerospace. Your investment will help protect critical infrastructures in aerospace industries in addition to transportation, energy, and manufacturing.

Your support will help us accelerate progress in the crucial field of aerospace, fostering a safer and more innovative future for such technology. Join us in our mission to address the pressing challenge of aerospace material degradation due to corrosion and establish the Augmented Reality and Simulation Lab. Together, we can make a lasting impact across industries.

Corrosion is a challenge that affects our lives in ways we may not realize, in fact it is an existential problem which affects infrastructures across multiple sectors including bridges, pipelines, power plants, and countless other critical structures suffer from the devastating effects of corrosion. We can contribute to this solution through our efforts in simulating corrosion within aerospace materials such as 6000 series aluminum and titanium alloys.

Our dedicated team of undergraduate researchers from diverse disciplines is working tirelessly to develop a cutting-edge solution to simulate and understand corrosion in aerospace materials. We are taking an approach which provides highly detailed models, giving us deeper insights into the underlying causes of corrosion, particularly the electrochemical process.

Together, we can mitigate the devastating impact of corrosion and create a safer, more resilient future for all.