Michael Kesler

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Research activity per year

Education/Academic qualification

Eng-Matls Sci, Doctorate Degree

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Dive into the research topics where Michael Kesler is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

1 Similar Profiles

Elucidating Grain Growth in Thermo-Magnetic Processed Materials by Transfer Learning and Reinforcement Learning
Krause, A. A. (PI), Harley, J. J. (CoPI), Tonks, M. M. (CoPI) & Kesler, M. (CoPI)
Basic Energy Sciences
09/15/19 → 09/14/23
Project: Research

45 Article
5 Technical Report
3 Conference contribution
1 Review article

Correlation of coercivity, microstructure, and surface defects in HDDR-processed Nd-Fe-B powders for bonded magnet applications
Liu, X. B., Kesler, M. S., Tener, Z. P., Kramer, M. J., McGuire, M. A. & Nlebedim, I. C., Feb 1 2026, In: AIP Advances. 16, 2, 025022.
Research output: Contribution to journal › Article › peer-review

Open Access
Effect of magneto-mechanical synergism in the process-structure correlation in Fe–C alloys: A phase-field modeling approach
Bandyopadhyay, S., Chatterjee, S., Trinkle, D. R., Hennig, R. G., Miller, V., Kesler, M. S. & Tonks, M. R., May 1 2026, In: Acta Materialia. 309, 122126.
Research output: Contribution to journal › Article › peer-review
Effects of magnetic field assisted heat treatment on the microstructure and mechanical properties of Fe-0.63 %C alloy
Bollineni, R. K., Thompson, M. J., Hurley, M. E., Miller, V. M., Tonks, M. R., Li, L., Mirzaeifar, R. & Kesler, M. S., Jan 2026, In: Materials Science and Engineering: A. 950, 149493.
Research output: Contribution to journal › Article › peer-review

Open Access
1 Scopus citations
Inverse design of hypoeutectoid pearlite steel microstructures using a deep learning and genetic algorithm optimization framework
Bollineni, R. K., Deng, Z., Kesler, M. S., Tonks, M. R., Li, L. & Mirzaeifar, R., Mar 10 2026, In: Computational Materials Science. 267, 114613.
Research output: Contribution to journal › Article › peer-review
Attempting to Develop the World’s Most Cost-Effective Metal 3D Printing Technology Through Industrial Adoption of a High-Temperature Electro-Magnetic Nozzle for 3D Printing and Computer Numerical Control Integration
Kesler, M., Thompson, M., Neveau, M., Sabau, A., Ge, W. & Jones, J., 2025, United States
Research output: Other contribution › Technical Report

Michael Kesler

Overview

Education/Academic qualification

Fingerprint

Projects

Elucidating Grain Growth in Thermo-Magnetic Processed Materials by Transfer Learning and Reinforcement Learning

Publications

Correlation of coercivity, microstructure, and surface defects in HDDR-processed Nd-Fe-B powders for bonded magnet applications

Effect of magneto-mechanical synergism in the process-structure correlation in Fe–C alloys: A phase-field modeling approach

Effects of magnetic field assisted heat treatment on the microstructure and mechanical properties of Fe-0.63 %C alloy

Inverse design of hypoeutectoid pearlite steel microstructures using a deep learning and genetic algorithm optimization framework

Attempting to Develop the World’s Most Cost-Effective Metal 3D Printing Technology Through Industrial Adoption of a High-Temperature Electro-Magnetic Nozzle for 3D Printing and Computer Numerical Control Integration