Thesis/Dissertation

[1]

A. T. Oriola, “On the Hot Cracking Susceptibility of Refractory High Entropy Alloys (RHEAs) During Solidification: Toward a Crack Susceptibility Index for Additive Manufacturing,” MS Thesis, University of Cincinnati, Cincinnati, OH, USA, 2024. Accessed: May 11, 2025. [Online]. Available: http://rave.ohiolink.edu/etdc/view?acc_num=ucin1733351818521435

Publications

[3]

A. T. Oriola, J. D. Maile, A. Nguyen, H. Do, R. Kumar, and E. J. Payton, “Screening of Refractory High-Entropy Alloy Solidification Behavior Through Laser Glazing,” JOM, vol. 77, pp. 7247–7263, Aug. 2025, doi: 10.1007/s11837-025-07620-8.

[2]

A. T. Oriola, J. D. Maile, A. Nguyen, and E. J. Payton, “Toward an index for predicting additive manufacturability of refractory high-entropy alloys,” JOM, vol. 77, pp. 7222–7234, Jul. 2025, doi: 10.1007/s11837-025-07552-3.

[1]

J. D. Maile, A. T. Oriola, I. P. Giblin, A. Nguyen, and E. J. Payton, “Assessment of hot cracking susceptibility through interdendritic feeding simulations,” Integr. Mater. Manuf. Innov., vol. 14, pp. 212–226, Jun. 2025, doi: 10.1007/s40192-025-00403-8.

Presentations

[8]

J. D. Maile (presenter), A. T. Oriola, A. Nguyen, E. J. Payton. (2024-10-08). Assessment of New Hot Crack Susceptibility Index Based on Interdendritic Pressure Drop Simulations. MS&T24: Materials Science & Technology.

[7]

A. T. Oriola (presenter), A. Nguyen, U. P. Ochieze, S. Josyula, H. Do, J. Maile, A. T. McMillen, W. C. Voellmecke, E. J. Payton. (2024-10-07). Additive manufacturing feasibility of refractory high entropy alloys. MS&T24: Materials Science & Technology.

[6]

E. J. Payton (presenter), A. T. Oriola, A. Nguyen, H. Do, L. Sun, J. Maile. (2024-08-20). Additive manufacturing feasibility of refractory high entropy alloys. 32nd International Materials Research Congress (IMRC2024).

[5]

U. P. Ochieze (presenter), R. Kumar, S. Josyula, A. T. Oriola, M. A. Steiner, E. J. Payton. (2023-11-13). Laser Shock Peening Surface Modification Effects on Microstructure and Oxidation Behavior of NbTiCoCrNi Refractory Complex Concentrated Alloys. High Entropy Alloys 2023.

[4]

S. Josyula (presenter), R. Kumar, U. P. Ochieze, A. T. Oriola, E. J. Payton, A. E. P. Y. Puente. (2023-10-04). Fabricating Nitinol Microtubes via Gas-Phase Alloying: A Computational and Experimental Feasibility Study. The Minerals, Metals, and Materials Society Fall Meeting at Materials Science and Technology.

[3]

R. Kumar (presenter), U. P. Ochieze, B. K. Adhikari, A. T. Oriola, S. Josyula, S. J. Watzman, E. J. Payton. (2023-10-03). Thermal, Electrical, and Magnetic Properties of Multi-Principal Element Alloys. The Minerals, Metals, and Materials Society Fall Meeting at Materials Science and Technology.

[2]

U. P. Ochieze (presenter), A. T. Oriola, R. Kumar, S. Josyula, M. A. Steiner, E. J. Payton. (2023-10-03). Effects of Laser Shock Peening Surface Modification on Oxidation Behavior of NbTi-X Refractory Complex Concentrated Alloys. The Minerals, Metals, and Materials Society Fall Meeting at Materials Science and Technology.

[1]

A. T. Oriola (presenter), R. Kumar, U. P. Ochieze, S. Josyula, G. H. Balbus, A. E. P. Y. Puente, E. J. Payton. (2023-10-03). Additive manufacturing feasibility of MoNbTi Refractory Complex Concentrated Alloys. The Minerals, Metals, and Materials Society Fall Meeting at Materials Science and Technology.