Personnel information

Full name: Assoc. Prof. Dang Thi Hong Hue

Position: Senior Lecturer; Director of the Materials Engineering Training Program (MS1);  President of the Trade Union, School of Materials.

Belongs to the unit: Department of Materials Engineering

Email address: hue.dangthihong@hust.edu.vn

Scientific background

 

INTRODUCTION

 Assoc. Prof. Dr. Dang Thi Hong Hue is currently a Senior Lecturer at the School of Materials, Hanoi University of Science and Technology. She graduated with a Bachelor's degree in Metallurgy and Materials Technology in 2002, earned a Master's degree in Materials Forming Technology in 2005, and successfully defended her Ph.D. thesis in Materials Science at Hanoi University of Science and Technology in 2014. Her in-depth research orientation focuses on combining numerical simulation and experiments to design and fabricate advanced materials. Currently, Assoc. Prof. Dr. Dang Thi Hong Hue is a member of a research group at the Computational Materials Science Laboratory, addressing urgent problems in material behavior and researching and fabricating new materials, including nanomaterials, smart materials, and energy storage materials.


TEACHING COURSES 

With over 25 years of work experience, Assoc. Prof. Dr. Dang Thi Hong Hue has accumulated extensive experience in teaching at various academic levels with many courses ranging from foundational to specialized:
Undergraduate Level:
•    Thermomechanical Behavior of Materials
•    Atomic-Scale Simulation
•    Machine Component Design
•    Materials Forming Technology
•    Theory of Plastic Deformation
•    Mechanics of Materials
•    Materials Modeling and Simulation
•    Project Planning for Forming Workshops
Graduate Level:
•    Materials Synthesis and Fabrication
•    Advanced Materials Forming Processes
•    Graduate Seminar
•    Fatigue Fracture Mechanics


RESEARCH FIELDS 

The current research directions of Assoc. Prof. Dr. Dang Thi Hong Hue focuses on combining numerical simulation and experiments to design, optimize, and develop advanced materials. She is currently a member of the research group at the Computational Materials Science Laboratory, with research on smart materials, energy storage materials, advanced alloys, and the deformation-fracture mechanisms of materials at the atomic scale, as well as the fabrication of nanomaterials, specifically:

Computational Materials Science:
•    Molecular Dynamics (MD) Simulation.
•    Phase-field Modeling.
•    Application of Artificial Intelligence and Machine Learning in Materials Science.
•    Research on deformation, fracture mechanisms, and mechanical properties of materials at the atomic scale.
Severe Plastic Deformation (SPD):
•    Fabrication of Ultrafine-Grained Materials (UFG).
•    ECAP, CGP, ARB technologies, and other advanced SPD methods.
Advanced Materials:
•    High Entropy Alloys (HEAs).
•    Functionally/Compositionally Graded Materials.
•    Ferroelectric and functional materials.


TYPICAL SCIENTIFIC PUBLICATIONS

Selected Research Projects
  • Ministry of Education and Training (MOET) level project code B2023-BKA-02: Research on mechanical properties and fracture mechanisms of compositionally graded nano-alloys using molecular dynamics simulation, implemented in 2023–2024, Principal Investigator.
  • University-level project code T2021-TĐ-01: Research on the influence of temperature and load effects on the structural transformation and mechanical properties of AA5052/Al-Mg aluminum alloys using molecular dynamics simulation, Principal Investigator.
  • MOET level project code B2016-BKA-26: Research and fabrication of bulk ultrafine-grained magnesium alloys using severe plastic deformation method, implemented in 2016–2017, Principal Investigator.
  • MOET level project (2009–2010): Research on factors affecting the accuracy of rotational parts produced by the cross wedge rolling method, Principal Investigator.
  • Vietnam - Belarus International Cooperation: Research on the application of cross wedge rolling technology in Vietnam, implemented in 2009–2012, Member.
  • Vietnam - South Korea International Cooperation: Research on fabricating nanostructured titanium materials by severe plastic deformation (SPD) method, implemented in 2006–2008, Member.
  • MOET level project (2015–2016): Research on technology for fabricating porous titanium alloy biomedical materials for dental implants, Member.
Selected Scientific Papers Web of Science Journals (SCI/SCIE)
  1. Dang Thi Hong Hue*, Van-Khanh Tran, Van-Lam Nguyen, Le Van Lich, Van-Hai Dinh, Trong-Giang Nguyen, High strain-rate effect on microstructure evolution and plasticity of aluminum 5052 alloy nano-multilayer: A molecular dynamics study, Vacuum 201 (2022) 111104. https://doi.org/10.1016/j.vacuum.2022.111104.
  2. Minh-Tien Le,1 Phuong-Linh Do,1 Van-Tuan Le,2 Dang Thi Hong Hue,1 Van-Hai Dinh,1 Trong-Giang Nguyen,1 and Le Van Lich1, The origin of piezoelectric enhancement in compositionally graded ferroelectrics with sinusoidal variation. Appl. Phys. Lett. 121, 162905 (2022); https://doi.org/10.1063/5.0115482
  3. Le Van Lich, Dang Thi Hong Hue, Do Thi Huong Giang, Nguyen Huu Duc, Takahiro Shimada, Takayuki Kitamura, Van-Hai Dinh, Formation and switching of chiral magnetic field textures in three-dimensional gyroid nanostructures, Acta Materialia. DOI: 10.1016/j.actamat.2023.118802 online: 27-02-2023.
  4. Le Van Lich, Thuy-Huong Nguyen, Dang Thi Hong Hue, Tinh Quoc Bui, Trong-Giang Nguyen, Van-Hai Dinh, Manh-Huong Phan, The design of compositionally modulated lead-free ferroelectrics with large electromechanical response via high-throughput phase-field simulations and machine-learning, Materials Research Bulletin, 10.1016/j.materresbull.2023.112433
  5. Dang Thi Hong Hue, Nguyen Van Lam, Van-Nguyen Nguyen, Van-Tuan Le, Van-Hai Dinh, Trong Giang Nguyen, Le Van Lich, Unusual plastic deformation mechanism in copper-high entropy alloy nanocomposites: Insights from molecular dynamics simulations, Materials Today Communications 37 (2023) 107627. https://doi.org/10.1016/j.mtcomm.2023.107627.
  6. Le Van Lich, Ba-Hieu Vu, Dang Thi Hong Hue, Do Thi Huong Giang, Takahiro Shimada, Van-Hai Dinh, Manh-Huong Phan, Low-field energy storage enhancement in ferroelectric/paraelectric PbTiO3/SrTiO3 nanocomposites near antiferroelectric–ferroelectric transition region. Journal of Science: Advanced Materials and Devices 9 (2024) 100687, https://doi.org/10.1016/j.jsamd.2024.100687
  7. Dang Thi Hong Hue, Nguyen Van Lam, Van-Hai Dinh, Trong-Giang Nguyen, Tinh Quoc Bui, Le Van Lich, Atomic-level analysis of unusual mechanical and failure behaviors in compositionally graded nanowires: A molecular dynamics study, Vacuum 225 (2024) 113243, https://doi.org/10.1016/j.vacuum.2024.113243
  8. Van-Lam Nguyen, Minh-Quan Doan, Dang Thi Hong Hue, Van-Hai Dinh, Le Van Lich, Mechanical behavior of high entropy alloys with gyroid nanostructures, Intermetallics 171 (2024) 108348, https://doi.org/10.1016/j.intermet.2024.108348
  9. Van-Lam Nguyen, Minh-Quan Doan, Ha Thi Dang, Dang Thi Hong Hue, Tinh Quoc Bui, Kyoungdoc Kim, Van-Hai Dinh, Le Van Lich, Enhanced energy absorption in high entropy alloys with octet lattice nanostructures, International Journal of Solids and Structures. https://doi.org/10.1016/j.ijsolstr.2024.113013.
  10. Minh Quan Doan, Van Lam Nguyen, Van Tuan Le, Duc Tam Ho, Dang Thi Hong Hue, Van Hai Dinh, Le Van Lich, Enhanced Energy Absorption and Unusual Mechanical Behaviors of Continuously Graded Diamond Shellular Nanostructures, Metals and Materials International, 2024. https://doi.org/10.1007/s12540-024-01841-3.
  11. Dang Thi Hong Hue*, Minh Quan Doan, Effect of grain size on the mechanical properties of compositionally graded copper-nickel nanocrystalline: A molecular dynamic simulation study, Journal of Science and Technology of Technical Universities. Volume 35, Issue 2, April 2025, 049-057. ISSN 2734-9381, https://doi.org/10.51316/jst.181.etsd.2025.35.2.7
  12. Le Van Lich,* Ha Thi Dang, Dang Thi Hong Hue, Ba-Hieu Vu, Van-Hai Dinh, and Trong-Giang Nguyen, Stabilization and Chirality Control of Topological Meron Textures in Radially Graded Ferroelectric. Materials. https://doi.org/10.1021/acs.nanolett.5c01035.


PUBLISHED BOOKS 

Dao Minh Ngung, Dang Thi Hong Hue, Design of Rolled Steel Production Workshops, Hanoi University of Science and Technology Publishing House, Publication number: 3462-2017/CXBIPH/01-77 BKHN, ISBN: 978-604-95-0324-5, Publishing Decision No: 186/QĐ-ĐHBK-BKHN dated October 12, 2017.


AWARDS / HONORS

•    Certificate of Merit from the National Union of Education Workers of Vietnam, Awarding Decision No: 197/QĐ-CĐN dated July 24, 2019.
•    Outstanding Lecturer, Decision No: 195/QĐ-ĐHBKHN-TCCB dated January 11, 2022.

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