Danni Yang | high-temperature alloys | Best Researcher Award Posted on 27/02/202527/02/2025 by chemical Scientist Dr. Danni Yang | high-temperature alloys | Best Researcher Award lecturer at , Lanzhou university of Technology, China. Dr. Danni Yang π is a dedicated researcher in Materials Science, specializing in high-entropy alloys. She earned her Ph.D. (2017-2023) and M.S. (2016-2017) from Harbin Institute of Technology and her B.S. from Chongqing University (2012-2016) π«. Her research focuses on the microstructures, diffusion behaviors, and phase transformations of high-entropy alloys βοΈ. With multiple publications in top journals π, she explores sintering and densification using numerical modeling. Currently affiliated with Lanzhou University of Technology π¨π³, Dr. Yang continues to advance materials science with innovative studies in powder metallurgy and alloy synthesis π¬. Professional Profile Scopus Orcid Suitability for the Researcher Award Dr. Danni Yang is a highly qualified and innovative researcher in Materials Science and Engineering π¬. Her expertise in high-entropy alloys (HEAs), microstructural analysis, phase transformations, and powder metallurgy has significantly advanced the field. With a Ph.D. from Harbin Institute of Technology ποΈ and multiple high-impact publications in top journals, she has contributed groundbreaking research in alloy development and finite element modeling π. EducationΒ π Ph.D. in Materials Science β Harbin Institute of Technology (2017-2023) ποΈ M.S. in Materials Science β Harbin Institute of Technology (2016-2017) π B.S. in Materials Science β Chongqing University (2012-2016) π Experience πΌ Investigates microstructures and properties of high-entropy alloys via powder metallurgy βοΈ Studies diffusion behaviors of elements in high-entropy alloys during mechanical alloying and sintering ποΈ Explores phase transformation of high-entropy alloys during processing π Specializes in sintering and densification using finite element modeling π Published multiple research papers in top materials science journals π Professional Development ππ Dr. Danni Yang π has demonstrated exceptional growth in materials science, specializing in high-entropy alloys βοΈ. She completed her Ph.D. and M.S. at Harbin Institute of Technology ποΈ and her B.S. at Chongqing University π. Her expertise spans microstructural analysis, phase transformations, and sintering techniques π¬. Actively engaged in research, she has authored multiple high-impact publications π. Dr. Yang continuously enhances her skills through numerical modeling, finite element analysis, and alloy synthesis π. As a researcher at Lanzhou University of Technology π«, she remains committed to advancing materials engineering with innovative powder metallurgy techniques π. Research Focus ππ€ Dr. Danni Yang’s research primarily focuses on Materials Science and Engineering ποΈ, with a specialization in High-Entropy Alloys (HEAs) βοΈ. Her work explores microstructural properties, diffusion behaviors, and phase transformations in advanced metallic materials π¬. She applies mechanical alloying, sintering techniques, and finite element modeling to enhance alloy performance π. Her studies also investigate thermal stability, oxidation resistance, and strengthening mechanisms π₯. With expertise in powder metallurgy and additive manufacturing, Dr. Yang contributes to developing next-generation materials for high-performance applications π. Her research advances structural integrity, durability, and functionality in complex alloy systems π. Publication Top Notes: 1οΈβ£ “Synthesis and Phase Evolution of a Nanocrystalline FexCrNiAl High-Entropy Alloys by Mechanical Alloying” β Materials, 2024 ποΈ2οΈβ£ “High Thermal Stability and Oxidation Behavior of FeCrNiAl-Based Medium-Entropy Alloys” β Journal of Alloys and Compounds, 2022 π₯3οΈβ£ “Effect of Fabrication Methods on Microstructures and Strengthening Mechanisms of Feβ.ββ CrNiAl Medium-Entropy Alloy” β Journal of Alloys and Compounds, 2021 βοΈ4οΈβ£ “A Novel FeCrNiAlTi-Based High-Entropy Alloy Strengthened by Refined Grains” β Journal of Alloys and Compounds, 2020 π¬5οΈβ£ “Effect of Annealing on Microstructure and Mechanical Properties of AlCrFeβNiβ Medium-Entropy Alloy” β Materials Science and Engineering: A, 2022 π6οΈβ£ “Parameters Prediction of Hot-Pressing Sintering of High-Entropy Alloys Using Numerical Modeling and Simulation” β Procedia Manufacturing, 2019 π7οΈβ£ “Fabrication and Characterization of Mg-M Layered Double Hydroxide Films on Anodized Magnesium Alloy AZ31” β Applied Surface Science, 2018 π π Conclusion: Dr. Danni Yang’s exceptional research contributions, technical expertise, and significant impact on materials science make her a strong candidate for the Best Researcher Award. Her work has pushed the boundaries of high-entropy alloys and materials engineering, paving the way for innovative solutions in structural and high-performance applications π.
Dr. Danni Yang π is a dedicated researcher in Materials Science, specializing in high-entropy alloys. She earned her Ph.D. (2017-2023) and M.S. (2016-2017) from Harbin Institute of Technology and her B.S. from Chongqing University (2012-2016) π«. Her research focuses on the microstructures, diffusion behaviors, and phase transformations of high-entropy alloys βοΈ. With multiple publications in top journals π, she explores sintering and densification using numerical modeling. Currently affiliated with Lanzhou University of Technology π¨π³, Dr. Yang continues to advance materials science with innovative studies in powder metallurgy and alloy synthesis π¬. Professional Profile Scopus Orcid Suitability for the Researcher Award
Dr. Danni Yang π is a dedicated researcher in Materials Science, specializing in high-entropy alloys. She earned her Ph.D. (2017-2023) and M.S. (2016-2017) from Harbin Institute of Technology and her B.S. from Chongqing University (2012-2016) π«. Her research focuses on the microstructures, diffusion behaviors, and phase transformations of high-entropy alloys βοΈ. With multiple publications in top journals π, she explores sintering and densification using numerical modeling. Currently affiliated with Lanzhou University of Technology π¨π³, Dr. Yang continues to advance materials science with innovative studies in powder metallurgy and alloy synthesis π¬. Professional Profile Scopus Orcid
Ph.D. in Materials Science β Harbin Institute of Technology (2017-2023) ποΈ M.S. in Materials Science β Harbin Institute of Technology (2016-2017) π B.S. in Materials Science β Chongqing University (2012-2016) π Experience πΌ Investigates microstructures and properties of high-entropy alloys via powder metallurgy βοΈ Studies diffusion behaviors of elements in high-entropy alloys during mechanical alloying and sintering ποΈ Explores phase transformation of high-entropy alloys during processing π Specializes in sintering and densification using finite element modeling π Published multiple research papers in top materials science journals π
Dr. Danni Yang π has demonstrated exceptional growth in materials science, specializing in high-entropy alloys βοΈ. She completed her Ph.D. and M.S. at Harbin Institute of Technology ποΈ and her B.S. at Chongqing University π. Her expertise spans microstructural analysis, phase transformations, and sintering techniques π¬. Actively engaged in research, she has authored multiple high-impact publications π. Dr. Yang continuously enhances her skills through numerical modeling, finite element analysis, and alloy synthesis π. As a researcher at Lanzhou University of Technology π«, she remains committed to advancing materials engineering with innovative powder metallurgy techniques π. Research Focus ππ€ Dr. Danni Yang’s research primarily focuses on Materials Science and Engineering ποΈ, with a specialization in High-Entropy Alloys (HEAs) βοΈ. Her work explores microstructural properties, diffusion behaviors, and phase transformations in advanced metallic materials π¬. She applies mechanical alloying, sintering techniques, and finite element modeling to enhance alloy performance π. Her studies also investigate thermal stability, oxidation resistance, and strengthening mechanisms π₯. With expertise in powder metallurgy and additive manufacturing, Dr. Yang contributes to developing next-generation materials for high-performance applications π. Her research advances structural integrity, durability, and functionality in complex alloy systems π.
Dr. Danni Yang π has demonstrated exceptional growth in materials science, specializing in high-entropy alloys βοΈ. She completed her Ph.D. and M.S. at Harbin Institute of Technology ποΈ and her B.S. at Chongqing University π. Her expertise spans microstructural analysis, phase transformations, and sintering techniques π¬. Actively engaged in research, she has authored multiple high-impact publications π. Dr. Yang continuously enhances her skills through numerical modeling, finite element analysis, and alloy synthesis π. As a researcher at Lanzhou University of Technology π«, she remains committed to advancing materials engineering with innovative powder metallurgy techniques π. Research Focus ππ€
Dr. Danni Yang’s research primarily focuses on Materials Science and Engineering ποΈ, with a specialization in High-Entropy Alloys (HEAs) βοΈ. Her work explores microstructural properties, diffusion behaviors, and phase transformations in advanced metallic materials π¬. She applies mechanical alloying, sintering techniques, and finite element modeling to enhance alloy performance π. Her studies also investigate thermal stability, oxidation resistance, and strengthening mechanisms π₯. With expertise in powder metallurgy and additive manufacturing, Dr. Yang contributes to developing next-generation materials for high-performance applications π. Her research advances structural integrity, durability, and functionality in complex alloy systems π.
Dr. Danni Yang’s exceptional research contributions, technical expertise, and significant impact on materials science make her a strong candidate for the Best Researcher Award. Her work has pushed the boundaries of high-entropy alloys and materials engineering, paving the way for innovative solutions in structural and high-performance applications π.