Doctor, University of Tennessee, United States
Dong Han is an accomplished researcher and engineer specializing in multiscale modeling of material and structural behaviors. With over seven years of hands-on experience, he has contributed significantly to solid mechanics, structural mechanics, and computational modeling. His expertise spans plasticity, fracture, fatigue, vibration, and heat transfer, making him a key player in advanced material research. Proficient in various CAE and CAD tools, he excels in developing computational solutions for real-world engineering challenges.
Publication Profile
Scopus
π Education:
Dong Han holds a Ph.D. in Materials Science and Engineering from the University of Tennessee, Knoxville (2020β2024) and previously studied at the University of California, Irvine (2019β2020). He earned an M.S. in Solid Mechanics from the University of Chinese Academy of Sciences (2016β2019) and a B.S. in Theoretical and Applied Mechanics from the University of Science and Technology of China (2012β2016). His academic journey reflects a strong foundation in mechanics and advanced computational modeling.
πΌ Experience:
Dong Han has diverse experience in academia, research institutions, and industry. As a Mechanical Engineer at Caterpillar Inc. (2023β2024), he played a crucial role in new product introduction and development, earning multiple recognitions for his contributions. He has been a Graduate Research Assistant at Oak Ridge National Laboratory and the University of Tennessee, Knoxville, where he developed thermomechanical models for additive manufacturing, studied high-temperature hydrogen attack, and conducted micromechanical investigations of stress relaxation cracking. His earlier research at the Chinese Academy of Sciences involved dynamic compression of metallic glass matrix composites and computational modeling of glass transition behavior.
π Awards and Honors:
Dong Han has received multiple recognitions at Caterpillar Inc. for his innovative solutions in product development. His research contributions in multiscale modeling and material behavior have been acknowledged through publications in high-impact journals. His work in material mechanics and computational modeling has made significant advancements in industrial and academic settings.
π Research Focus:
Dong Hanβs research spans finite element analysis (FEA), molecular dynamics, computational fluid dynamics (CFD), and experimental material testing. His work on additive manufacturing, high-temperature hydrogen attack, and stress relaxation cracking has enhanced the understanding of material behavior under extreme conditions. He integrates computational and experimental approaches to optimize material selection and structural design, contributing to safer and more efficient engineering solutions.
π Conclusion:
Dong Han is a distinguished researcher and engineer with expertise in material modeling, computational mechanics, and experimental validation. His contributions to high-temperature material behavior, additive manufacturing, and structural optimization have had a significant impact on both academia and industry. With a deep understanding of computational and experimental techniques, he continues to drive innovation in engineering materials and structural analysis. π
π Publications:
A mechanistic interpretation of Nelson curves for PVP failures under high-temperature hydrogen attack. Mechanics of Materials.
Atomistic structural mechanism for the glass transition: entropic contribution. Physical Review B.
Statistical complexity of potential energy landscape as a dynamic signature of the glass transition. Physical Review B.
Identifying multiple synergistic factors on the susceptibility to stress relaxation cracking in variously heat-treated weldments. Mechanics of Materials.
Residual stress modeling and advanced diffraction measurements of 347H steel weldments. Pressure Vessels and Piping Conference.
Does structure determine property in amorphous solids? Chinese Journal of Theoretical and Applied Mechanics.