Eric Payton
Assoc Professor
Associate Professor
Rhodes Hall
627
CEAS - Materials Science & Engineering - 0072
Professional Summary
Dr. Payton’s laboratory addresses the sustainability of critical materials through fundamental research into alloy design, discovery, and processing, enabling design engineers to balance performance with responsible resource utilization. Employing state-of-the-art computational and quantitative characterization techniques, his group seeks to lend insights into microstructure evolution during processing and chemo-mechanical environmental interactions in service, then use this knowledge to develop practical tools for predicting material properties. Prior to joining the faculty of the University of Cincinnati in 2022, Dr. Payton served for five years as the Research Leader for the Metallic Materials and Processing Team at the Air Force Research Laboratory, Materials and Manufacturing Directorate. Before entering government service, he was an Assistant Professor of Materials Science and Engineering at the New York State College of Ceramics at Alfred University, and held post-doctoral positions at both Ruhr University in Bochum, Germany and the Federal Institute for Materials Research and Testing (BAM) in Berlin, Germany. He obtained his doctorate in Materials Science and Engineering from The Ohio State University. Dr. Payton’s colleagues suspect he would be a good addition to their trivia night team; however, his area of trivia mastery may be limited to turn-of-the century musicians. Dr. Payton is an enthusiastic advocate of scientific collaboration, structured programming, learner-centered pedagogy, and vegetables.
Education
PhD: Ohio State 2009 (Materials Science and Engineering)
MS: Ohio State 2007 (Materials Science and Engineering)
BS: Virginia Tech 2003 (Materials Science and Engineering)
Research and Practice Interests
Materials sustainability; alloy discovery and design; metals processing science; critical materials; quantitative characterization; microstructure modeling and simulation
Research Support
Investigators:Payton, Eric 06-01-2023 -12-31-2023 DNV Microstructure Investigation of Deep Sea Steel Components Role:PI 19581.00 Hold Level:Industry
Grant: #ITE-2322605 Investigators:Honken, Nora; Kwuimy, Cedrick; Payton, Eric; Paz y Puente, Ashley 10-01-2023 -09-30-2026 National Science Foundation Pivots: Reskilling Education Via Advanced Manufacturing Practicum (REVAMP) Role:Collaborator 999997.00 Awarded Level:Federal
Grant: #EEC-2349580 Investigators:Bellur, Kishan; Payton, Eric; Reeping, David; Rowe, Annette; Steiner, Matthew; Sun, Ying; Watzman, Sarah; Webb, Amanda 04-01-2024 -03-31-2027 National Science Foundation REU Site: Research Experiences for American Leadership of Industry with Zero Emissions by 2050 (REALIZE-2050) Role:Collaborator 445485.00 Active Level:Federal
Grant: #SFTC Investigators:Payton, Eric 09-01-2023 -02-28-2024 Department of Energy Short Courses in Software Tools for Alloy and Process Optimization Role:PI 99113.00 Hold Level:Federal
Investigators:Payton, Eric 05-01-2024 -05-15-2024 Rhenium Alloys Inc. CALPHAD calculations on Mo-Re-W Role:PI 768.00 Hold Level:Industry
Grant: #24-25 Forging Club Grant Investigators:Payton, Eric 08-01-2024 -07-31-2025 Forging Industry Educational and Research Foundation University of Cincinnati Forging Club Starter Grant Role:PI 5000.00 Hold Level:Non Profit
Investigators:Payton, Eric 02-01-2024 -01-31-2025 Materials Resources, LLC Characterization of Additively Manufactured Particle Strengthened Alloys Role:PI 18889.00 Hold Level:Industry
Investigators:Payton, Eric 08-26-2024 -12-14-2024 DNV Forensic Metallurgy of Pipeline Steel Thermal Histories Role:PI 25500.00 Hold Level:Industry
Publications
Peer Reviewed Publications
Wang G.; Xu D.S.; Ma N.; Zhou N.; Payton E.J.; Yang R.; Mills M.J.; Wang Y. (01-01-2009. ) Simulation study of effects of initial particle size distribution on dissolution.Acta Materialia, , 57 (2 ) ,316-325 More Information
Payton E.; Wang G.; Ma N.; Wang Y.; Mills M.; Whitis D.; Mourer D.; Wei D. (01-01-2008. ) Integration of simulations and experiments for modeling superalloy grain growth.Proceedings of the 11th International Symposium on Superalloys, , 975-984 More Information
Payton E.; Phillips P.; Mills M. (04-25-2010. ) Semi-automated characterization of the gamma prime phase in Ni-based superalloys via high-resolution backscatter imaging.Materials Science and Engineering A, , 527 (10-11 ) ,2684-2692 More Information
Rao J.C.; Payton E.J.; Somsen C.; Neuking K.; Eggeler G.; Kostka A.; Dos Santos J.F. (04-01-2010. ) Where Does the Lithium Go? - A Study of the Precipitates in the Stir Zone of a Friction Stir Weld in Friction Stir Weld in a Li-containing 2xxx Series Al Alloy.Advanced Engineering Materials, , 12 (4 ) ,298-303 More Information
Prokofiev E.A.; Burow J.A.; Payton E.J.; Zarnetta R.; Frenzel J.; Gunderov D.V.; Valiev R.Z.; Eggeler G. (08-01-2010. ) Suppression of Ni4Ti3 precipitation by grain size refinement in Ni-Rich NiTi Shape Memory Alloys.Advanced Engineering Materials, , 12 (8 ) ,747-753 More Information
Dziaszyk S.; Payton E.; Friedel F.; Marx V.; Eggeler G. (11-15-2010. ) On the characterization of recrystallized fraction using electron backscatter diffraction: A direct comparison to local hardness in an IF steel using nanoindentation.Materials Science and Engineering A, , 527 (29-30 ) ,7854-7864 More Information
Springer H.; Kostka A.; Payton E.J.; Raabe D.; Kaysser-Pyzalla A.; Eggeler G. (02-01-2011. ) On the formation and growth of intermetallic phases during interdiffusion between low-carbon steel and aluminum alloys.Acta Materialia, , 59 (4 ) ,1586-1600 More Information
Frenzel J.; Burow J.; Payton E.; Rezanka S.; Eggeler G. (04-01-2011. ) Improvement of NiTi shape memory actuator performance through ultra-fine grained and nanocrystalline microstructures.Advanced Engineering Materials, , 13 (4 ) ,256-268 More Information
Payton E.; Mills M. (06-01-2011. ) Stereology of backscatter electron images of etched surfaces for characterization of particle size distributions and volume fractions: Estimation of imaging bias via Monte Carlo simulations.Materials Characterization, , 62 (6 ) ,563-574 More Information
Wang G.; Xu D.S.; Payton E.J.; Ma N.; Yang R.; Mills M.J.; Wang Y. (06-01-2011. ) Mean-field statistical simulation of grain coarsening in the presence of stable and unstable pinning particles.Acta Materialia, , 59 (11 ) ,4587-4594 More Information
Kurumlu D.; Payton E.J.; Young M.L.; Schöbel M.; Requena G.; Eggeler G. (01-01-2012. ) High-temperature strength and damage evolution in short fiber reinforced aluminum alloys studied by miniature creep testing and synchrotron microtomography.Acta Materialia, , 60 (1 ) ,67-78 More Information
Otto F.; Payton E.; Frenzel J.; Eggeler G. (03-01-2012. ) The effectiveness of coincidence site lattice criteria in predicting creep cavitation resistance.Journal of Materials Science, , 47 (6 ) ,2915-2927 More Information
Otto F.; Viswanathan G.B.; Payton E.J.; Frenzel J.; Eggeler G. (04-01-2012. ) On the effect of grain boundary segregation on creep and creep rupture.Acta Materialia, , 60 (6-7 ) ,2982-2998 More Information
Payton E.; Aghajani A.; Otto F.; Eggeler G.; Yardley V. (06-01-2012. ) On the nature of internal interfaces in a tempered martensite ferritic steel and their evolution during long-term creep.Scripta Materialia, , 66 (12 ) ,1045-1048 More Information
Semiatin S.L.; McClary K.E.; Rollett A.D.; Roberts C.G.; Payton E.J.; Zhang F.; Gabb T.P. (05-01-2012. ) Microstructure evolution during supersolvus heat treatment of a powder metallurgy nickel-base superalloy.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 43 (5 ) ,1649-1661 More Information
Payton E.; Wynn T.; Mills M. (10-01-2012. ) Experimental measurement of the kinetics of gamma prime dissolution during supersolvus heat treatment of powder metallurgical Ni-based disk superalloys.Journal of Materials Science, , 47 (20 ) ,7305-7311 More Information
Kurumlu D.; Payton E.; Somsen C.; Dlouhy A.; Eggeler G. (10-01-2012. ) On the presence of work-hardened zones around fibers in a short-fiber-reinforced Al metal matrix composite.Acta Materialia, , 60 (17 ) ,6051-6064 More Information
Payton E.; Wang G.; Mills M.; Wang Y. (02-01-2013. ) Effect of initial grain size on grain coarsening in the presence of an unstable population of pinning particles.Acta Materialia, , 61 (4 ) ,1316-1326 More Information
Semiatin S.L.; McClary K.E.; Rollett A.D.; Roberts C.G.; Payton E.J.; Zhang F.; Gabb T.P. (06-01-2013. ) Plastic flow and microstructure evolution during thermomechanical processing of a PM nickel-base superalloy.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 44 (6 ) ,2778-2798 More Information
Payton E.; Nolze G. (08-01-2013. ) The backscatter electron signal as an additional tool for phase segmentation in electron backscatter diffraction.Microscopy and Microanalysis, , 19 (4 ) ,929-941 More Information
Yardley V.A.; Fahimi S.; Payton E.J. (03-01-2015. ) Classification of creep crack and cavitation sites in tempered martensite ferritic steel microstructure.Materials Science and Technology (United Kingdom), , 31 (5 ) ,547-553 More Information
Yardley V.A.; Fahimi S.; Payton E.J. (01-01-2015. ) Classification of creep crack and cavitation sites in tempered martensite ferritic steel microstructure.Energy Materials: Materials Science and Engineering for Energy Systems, , 10 (1 ) ,547-553 More Information
Yardley V.; Payton E. (01-01-2014. ) Austenite–martensite/bainite orientation relationship: Characterisation parameters and their application.Materials Science and Technology (United Kingdom), , 30 (9 ) ,1125-1130 More Information
Coutinho Y.A.; Rooney S.C.K.; Payton E.J. (05-01-2017. ) Analysis of EBSD Grain Size Measurements Using Microstructure Simulations and a Customizable Pattern Matching Library.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 48 (5 ) ,2375-2395 More Information
Miller V.M.; Payton E.J.; Pilchak A.L. (07-15-2017. ) Reduction in the thermodynamic nucleation barrier via the heteroepitaxial recrystallization mechanism.Scripta Materialia, , 136 ,128-131 More Information
Semiatin S.L.; Levkulich N.C.; Saurber A.E.; Mahaffey D.W.; Payton E.J.; Senkov O.N. (11-01-2017. ) The Kinetics of Precipitate Dissolution in a Nickel-Base Superalloy.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 48 (11 ) ,5567-5578 More Information
Sinha V.; Payton E.J.; Gonzales M.; Abrahams R.A.; Song B.S. (12-01-2017. ) Delineation of Prior Austenite Grain Boundaries in a Low-Alloy High-Performance Steel.Metallography, Microstructure, and Analysis, , 6 (6 ) ,610-618 More Information
Gerlt A.R.C.; Picard R.S.; Saurber A.E.; Criner A.K.; Semiatin S.L.; Payton E.J. (10-01-2018. ) A Transfer Function for Relating Mean 2D Cross-Section Measurements to Mean 3D Particle Sizes.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 49 (10 ) ,4424-4428 More Information
Gerlt A.R.C.; Criner A.K.; Semiatin L.; Payton E.J. (01-01-2019. ) On the grain size proportionality constants calculated in M.I. Mendelson's “Average Grain Size in Polycrystalline Ceramics”.Journal of the American Ceramic Society, , 102 (1 ) ,37-41 More Information
Brust A.F.; Niezgoda S.R.; Yardley V.A.; Payton E.J. (02-15-2019. ) Analysis of Misorientation Relationships Between Austenite Parents and Twins.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 50 (2 ) ,837-855 More Information
Senkov O.N.; Zhang C.; Pilchak A.L.; Payton E.J.; Woodward C.; Zhang F. (04-30-2019. ) CALPHAD-aided development of quaternary multi-principal element refractory alloys based on NbTiZr.Journal of Alloys and Compounds, , 783 ,729-742 More Information
Semiatin S.L.; Levkulich N.C.; Gerlt A.R.C.; Payton E.J.; Tiley J.S.; Zhang F.; MacKay R.A.; Miner R.V.; Gabb T.P. (01-01-2019. ) High-Temperature Static Coarsening of Gamma-Prime Precipitates in NiAlCr-X Single Crystals.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , More Information
Semiatin S.L.; Obstalecki M.; Payton E.J.; Pilchak A.L.; Shade P.A.; Levkulich N.C.; Shank J.M.; Pagan D.C.; Zhang F.; Tiley J.S. (01-01-2019. ) Dissolution of the Alpha Phase in Ti-6Al-4V During Isothermal and Continuous Heat Treatment.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , More Information
Brust A.F.; Payton E.J.; Hobbs T.J.; Niezgoda S.R. (08-01-2019. ) Application of the maximum flow-minimum cut algorithm to segmentation and clustering of materials da.Microscopy and Microanalysis, , 25 (4 ) ,924-941 More Information
Payton E.J.; Gerlt A.R.C.; Pilchak A.L. (08-14-2019. ) Simulations of the relative importance of initial size advantage and boundary energy anisotropy in abnormal grain growth.Journal of Physics: Conference Series, , 1270 (1 ) , More Information
Sinha V.; Gonzales M.; Abrahams R.A.; Song B.S.; Payton E.J. (01-01-2020. ) Correlative microscopy for quantification of prior austenite grain size in AF9628 steel.Materials Characterization, , 159 , More Information
Sinha V.; Gonzales M.; Payton E.J. (12-01-2019. ) Datasets acquired with correlative microscopy method for delineation of prior austenite grain boundaries.Data in Brief, , 27 , More Information
Brust A.F.; Payton E.J.; Sinha V.; Yardley V.A.; Niezgoda S.R. (01-01-2020. ) Characterization of Martensite Orientation Relationships in Steels and Ferrous Alloys from EBSD Data.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 51 (1 ) ,142-153 More Information
Brunson Z.D.; Pilchak A.L.; Rao S.; Payton E.J.; Stebner A.P. (10-01-2020. ) An Expanded Martensite Variant Selection Theory Accounting for Transformation Rotations and Applied Stress Fields: Predictions of Variant Clusters in Titanium.JOM, , 72 (10 ) ,3594-3607 More Information
Gerlt A.R.C.; Criner A.K.; Semiatin S.L.; Wertz K.N.; Payton E.J. (01-01-2021. ) Non-linear Transfer Functions for Accurately Estimating 3D Particle Size, Distribution, and Expected Error from 2D Cross Sections of a Lognormal Distribution of Spherical Particles.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 52 (1 ) ,228-241 More Information
Senkov O.N.; Daboiku T.I.; Butler T.M.; Titus M.S.; Philips N.R.; Payton E.J. (04-01-2021. ) High-temperature mechanical properties and oxidation behavior of Hf-27Ta and Hf-21Ta-21X (X is Nb, Mo or W) alloys.International Journal of Refractory Metals and Hard Materials, , 96 ,105647 More Information
Levkulich N.C.; Semiatin S.L.; Payton E.J.; Srivatsa S.; Pilchak A.L. (04-01-2021. ) An Investigation of the Development of Coarse Grains During Beta Annealing of Hot-Forged Ti-6Al-4V.Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, , 52 (4 ) ,1353-1367 More Information
Senkov O.N.; Kuhr S.J.; Shank J.M.; Payton E.J.; Woodward C. (05-13-2021. ) Microstructure and properties of an equiatomic TaTiZr alloy.Materials Science and Engineering A, , 814 , More Information
Brust A.; Payton E.; Hobbs T.; Sinha V.; Yardley V.; Niezgoda S. (10-30-2021. ) Probabilistic Reconstruction of Austenite Microstructure from Electron Backscatter Diffraction Observations.Microscopy and Microanalysis, , 27 (5 ) ,1035-1055 More Information
Amiri M.; Payton E.J. (12-01-2021. ) An analytical model for prediction of denudation zone width in laser powder bed fusion additive manufacturing.Additive Manufacturing, , 48 , More Information
Senkov O.N.; Gorsse S.; Wheeler R.; Payton E.J.; Miracle D.B. (11-01-2021. ) Effect of Re on the microstructure and mechanical properties of NbTiZr and TaTiZr equiatomic alloys.Metals, , 11 (11 ) , More Information
Senkov O.N.; Daboiku T.I.; Butler T.M.; Detor A.; Payton E.J. (02-01-2022. ) Effect of Mo on the microstructure and mechanical properties of (73Hf27Ta)(100-X)MoX (X = 0, 5, 16, 21 and 30 at.%) alloys.International Journal of Refractory Metals and Hard Materials, , 103 ,105737 More Information
Hager E.M.; O'Hara R.P.; Cobb, G.R.; Flater, P.J.; Payton E.J.; Sinha, V.; Doane, B.M.; Kemnitz, R.A. (03-24-2022. ) Development of high density parts in the low-alloy, high-performance steel AF9628 using laser powder bed fusion.Materials Science and Engineering A, , 838 ,142656 More Information
Choi W.J.; Kulak M.J.; Kim C.; Payton E.J.; Rudolf C.; Kang W. (06-01-2022. ) Electro-thermo-mechanical characterization of microscale Ti-6Al-4V wires using an innovative experimental method.Materials Characterization, , 188 ,111927 More Information
Thome, Pascal; Schneider, Mike; Yardley, Victoria A; Payton, Eric J; Eggeler, Gunther (2023. ) Local Maxima in Martensite Start Temperatures in the Transition Region between Lath and Plate Martensite in Fe-Ni Alloys.Materials (Basel, Switzerland), , 16 (4 ) , More Information
Courses Taught
MET 2032 Materials Science Level:Undergraduate
MTEN 5120-6020 Materials Kinetics Level:Both
MTEN-INTR 3014 Green Gold Rush - Critical Materials in the Race to a Sustainable Future Level:Undergraduate
MTEN 5105-6005 Materials Thermodynamics Level:Both