Materials & Process

Materials & Process (M&P)

Revolutionizing manufacturing with advanced materials, processes, tooling and data. 

The Materials & Process Division focuses on the development and deployment of advanced technology and materials to improve manufacturing performance, agility and sustainability. 

four people in PPE working on metalcasting

The mission of The Materials & Process Division is to be a leader in advancing the state-of-the-art of manufacturing processes through the development of new technology and by integrating legacy manufacturing with emerging technologies. 

In the M&P Division, a team of multidisciplinary researchers utilize Industry 4.0 disruptive technologies – such as sensors and the Internet of Things (IoT), additive manufacturing, and next-generation materials – to create value in traditional manufacturing processes such as metalcasting, forming, joining and machining.

Together with academic researchers and industry partners, the group is driving technology-first, flexible, and efficient manufacturing solutions to boost US supply chain resilience and enable domestic manufacturers to compete in a global market. The Division aligns with CDME's fundamental objective of collaborating with industrial partners in applied research, while also providing support for the academic growth of undergraduate students engaged in research activities.

M&P comprises experts from the College of Engineering’s Center for Design and Manufacturing Excellence (CDME), the Department of Materials Science and Engineering and the Institute for Materials and Manufacturing Research (IMR).

Are you interested in working together? Let's connect.

Research Focus

Research Focus

Metalcasting Sand Casting | Die Casting | Integrated Sensors | 3D Printed Tooling
Polymers and Composites Injection Molding | Compounding | Pellet-fed AM
Legacy Manufacturing Metal Forming | Welding | Machining
General Prototyping Mechanical Design | CAD | Fabrication | Testing

What We Do

 

M&P works at the intersection of traditional manufacturing and cutting-edge technology. We take a holistic approach to studying the manufacturing process chain – from raw material to finished part – and targets opportunities to add value by injecting advanced technology. 

The overarching objectives of our work are to create new pathways for manufacturing by augmenting traditional manufacturing process chains with advanced technology - and to train the future workforce along the way. 

M&P is positioned to partner with a wide range of manufacturers and industries, and to solve problems that are immediately relevant. M&P works with the Department of Defense, the Department of Energy, NASA, the State of Ohio, the automotive, biomedical, nuclear industries and many others. 

M&P Leadership

M&P Leadership

jason walker headshot
Jason Walker, PhD
Materials & Process Director
walker.1762@osu.edu
Alan Luo in lab at CDME
Alan Luo, PhD
M&P Faculty Director
luo.445@osu.edu

Recent Publications

 

Johnson K, Burden E, Shaffer M, Noack T, Mueller M, Walker J, MacDonald E, Cortes P, Quintana J. A copper pyramidal fractal antenna fabricated with green-laser powder bed fusion. Progress in Additive Manufacturing. 2022 Oct;7(5):931-42.

Vuksanovich B, Herberger C, Jaric D, Daugherty T, Clancy M, Gaffney S, Lonardo R, Huff R, Walker J, Cortes P, Ravi S. Wireless Ventilation Measurement in 3D Printed Sand Molds. International Journal of Metalcasting. 2022 Jan;16(1):80-92.

Bryant N, Frush T, Thiel J, MacDonald E, Walker J. Influence of machine parameters on the physical characteristics of 3D-printed sand molds for metal casting. International Journal of Metalcasting. 2021 Apr;15:361-72.

Juhasz M, Tiedemann R, Dumstorff G, Walker J, Du Plessis A, Conner B, Lang W, MacDonald E. Hybrid directed energy deposition for fabricating metal structures with embedded sensors. Additive Manufacturing. 2020 Oct 1;35:101397.

Elhattab K, Sikder P, Walker JM, Bottino MC, Bhaduri SB. Fabrication and evaluation of 3-D printed PEEK scaffolds containing Macropores by design. Materials Letters. 2020 Mar 15;263:127227.

Mummareddy B, Maravola M, MacDonald E, Walker J, Hetzel B, Conner B, Cortes P. The fracture properties of metal‐ceramic composites manufactured via stereolithography. International Journal of Applied Ceramic Technology. 2020 Mar;17(2):413-23.

Full List Of Publications

Recent Headlines

News

CDME creates a solution for local animal shelter
CDME teams up with CHA animal shelter to redesign trench drain covers
Meet the Team with Director of Materials Innovation Jason Walker
Q&A with Jason Walker
Luo recognized as materials science and engineering leader
Receives two prestigious honors from The Minerals, Metals & Materials Society

Ready to get started?

We're looking forward to learning more about your company and exploring collaborative opportunities. To begin the project process or gain insight into our capabilities, connect with M&P Director Jason Walker (walker.1762@osu.edu)