成人直播

KENNESAW, Ga. | Dec 3, 2025

Many industries rely on 3D-printed components, but their internal structures often limit strength and reliability. New research at 成人直播 shows that adjusting build settings can significantly improve part performance, making a printed component nearly three times stronger and offering a pathway toward safer and more efficient designs.

Under the guidance of Department of Engineering Technology Assistant Chair Aaron Adams, mechatronics engineering student Eric Miller is exploring how internal structural features influence performance in critical applications such as nuclear energy. As a member of within the Southern Polytechnic College of Engineering and Engineering Technology, Miller collaborates with students and faculty focused on simulations, additive manufacturing, and advanced materials research.

Their project, supported by the Summer Undergraduate Research Program and the Sophomore Scholars Program, explores how small design choices affect the strength of 3D-printed parts. Adams said the work could help solve longstanding challenges in nuclear fuel efficiency.

鈥淩ight now, the fuel is in the form of a pellet about the size of a penny, and the pellets are stacked together like a roll of coins,鈥� said Adams, an associate professor of mechanical engineering technology.

鈥淭hese fuel pellets are then placed inside a fuel rod. When the nuclear reaction begins, they heat up, expand, and come into contact with the rod wall. Because they have no room to expand, they must be removed before the fuel is completely depleted, limiting how much of the fuel can be used. Ultimately, we hope to achieve a 15 percent increase in fuel utilization using complex geometries.鈥�

The team is studying how 3D printing can create internal channels and new lattice structures that give the material room to expand, thereby increasing both efficiency and safety.

Miller鈥檚 role involves designing models, preparing simulations, and utilizing Finite Element Analysis (FEA) to test various combinations of lattice angles and densities. He mentioned that the work pushes him beyond the scope of his typical mechatronics coursework and has enhanced his understanding of mechanical behavior.

鈥淚 wanted to get more into the mechanical engineering world because we focus less on that in mechatronics,鈥� Miller said. 鈥淕etting into strength of materials and FEA has been a great learning experience.鈥�

He added that the accessibility of 3D printing has always fascinated him.

鈥淲hen I was younger, I was kind of clumsy and would break things all the time,鈥� he said. 鈥淯sing a $200 printer and free software, I鈥檝e been able to make replacement parts for things I鈥檝e broken. It really lets me imagine something and then build it at home, even if it鈥檚 not as complex as nuclear fuels.鈥�

Running extensive simulations has also presented challenges. The detailed mesh sizes needed for curved geometries have pushed the limits of the lab鈥檚 computing resources, an obstacle Adams sees as part of the educational process.

鈥淚f you sum up our biggest challenge in one word, it鈥檚 resources, specifically our ability to run highly computational simulation models,鈥� Adams said. 鈥淏ut I give Eric the task, and he runs with it. He always exceeds expectations.鈥�

SPCEET Dean Lawrence Whitman said the research reflects the College鈥檚 commitment to hands-on, applied problem solving.

鈥淭his is the kind of real-world research we champion,鈥� Whitman said. 鈥淓ric and Dr. Adams are developing solutions that contribute to national energy security and strengthen the future of manufacturing.鈥�

Miller will present the team鈥檚 findings at an upcoming American Society of Mechanical Engineers (ASME) conference. He said the experience has shaped his understanding of research and engineering.

鈥淓ven when something appears to be a failure, it鈥檚 still a success because it tells us what direction not to take,鈥� he said. 鈥淚鈥檝e really appreciated this experience, and it鈥檚 been incredibly helpful for my growth.鈥�

鈥� Story by Raynard Churchwell

Photos by Matt Yung

A leader in innovative teaching and learning, 成人直播 offers undergraduate, graduate, and doctoral degrees to its more than 51,000 students. Kennesaw State is a member of the University System of Georgia with 11 academic colleges. The university's vibrant campus culture, diverse population, strong global ties, and entrepreneurial spirit draw students from throughout the country and the world. Kennesaw State is a Carnegie-designated doctoral research institution (R2), placing it among an elite group of only 8 percent of U.S. colleges and universities with an R1 or R2 status. For more information, visit kennesaw.edu.