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Profil
| Derzeitige Stellung | Professor W-3 und Äquivalente |
|---|---|
| Fachgebiet | Mechanik,Künstliche Intelligenz und Maschinelle Lernverfahren,Theoretische Informatik |
| Keywords | Machine learning, Finite element simulation, 3D printing, Topology optimization, Computational mechanics |
| Auszeichnungen | 2022: 1% Highly Cited Researchers, Clarivate Analysis 2021: Alexander von Humboldt Foundation Digital Cooperation Fellowship 2021: 1% Highly Cited Researchers, Clarivate Analysis 2020: 1% Highly Cited Researchers, Clarivate Analysis 2019: Alexander von Humboldt Renewed Research 2019: Outstanding Humboldtian 2019: 1% Highly Cited Researchers, Clarivate Analysis 2018: 1% Highly Cited Researchers, Clarivate Analysis 2017: 1% Highly Cited Researchers, Clarivate Analysis 2016: 1% Highly Cited Researchers, Clarivate Analysis 2015: Georg Forster Research Award 2015: 1% Highly Cited Researchers, Thompson Reuters 2014: 1% Highly Cited Researchers, Thompson Reuters 2013: Excellent researcher, Vietnam National University HCMC 2012: Excellent researcher, Vietnam National University HCMC 2011: Nguyen Van Dao’s award, Vietnam Association of Mechanics 2010: Excellent researcher, Vietnam National University HCMC |
Aktuelle Kontaktadresse
| Land | Vietnam |
|---|---|
| Ort | Ho Chi Minh City |
| Universität/Institution | Ho Chi Minh City University of Technology |
| Institut/Abteilung | Center for Interdisciplinary Research Technology |
Gastgeber*innen während der Förderung
| Prof. Dr. Klaus Hackl | Lehrstuhl für Allgemeine Mechanik, Ruhr-Universität Bochum, Bochum |
|---|---|
| Prof. Dr. Hung Nguyen-Xuan | Center for Interdisciplinary Research Technology, Ho Chi Minh City University of Technology, Ho Chi Minh City |
| Prof. Dr.-Ing. Timon Rabczuk | Institut für Strukturmechanik, Bauhaus-Universität Weimar, Weimar |
| Beginn der ersten Förderung | 01.01.2016 |
Programm(e)
| 2015 | Georg Forster-Forschungspreis-Programm |
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Projektbeschreibung der*des Nominierenden
| Professor Nguyen-Xuan is internationally well known for his research on the crossroads of engineering mechanics, computer science and mathematics. He has made outstanding contributions in the field of finite element technology, a numerical method which allows to model engineering processes and systems. He belongs to the pioneers of the famous Smoothed Finite Element Method (SFEM) which significantly improves the accuracy and efficiency of finite element formulations. In Germany, he intends to develop new formulations for the modeling of complex material behavior. One key objective is the design of smart and tailor-made materials. |
Publikationen (Auswahl)
| 2025 | Duong Q. Nguyen, Kim Q. Tran, Thinh D. Le, Magd Abdel Wahab, H. Nguyen-Xuan: A data-driven uncertainty quantification framework in probabilistic bio-inspired porous materials (Material-UQ): An investigation for RotTMPS plates. In: Computer Methods in Applied Mechanics and Engineering, 435, 2025, 117603 |
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| 2025 | Kim Q. Tran, Thoi V. Duong, Tien-Dat Hoang, Magd Abdel Wahab, Klaus Hackl, H. Nguyen-Xuan: A new thermoelastic model for agglomerated and randomly-oriented CNT-reinforced bio-inspired materials: Temperature-dependent free vibration analysis of FG-CNTR-TPMS plates. In: Engineering Analysis with Boundary Elements, 174, 2025, 106157 |
| 2022 | Hieu Chi Phan, Luan Le-Thanh, H. Nguyen-Xuan: A semi-empirical approach and uncertainty analysis to pipes under hydrogen embrittlement degradation. In: International Journal of Hydrogen Energy, 47, 2022, 5677-5691 |
| 2022 | Bao-Loi Dang, Vuong Nguyen-Van, Phuong Tran, Magd Abdel Wahab, Jaehong Lee, Klaus Hack, H. Nguyen-Xuan: Mechanical and hydrodynamic characteristics of emerged porous Gyroid breakwaters based on triply periodic minimal surfaces. In: Ocean Engineering, 245, 2022, 111392 |
| 2020 | Van-Nam Hoang, Phuong Tran, Ngoc-Linh Nguyen, Klaus Hackl, H. Nguyen-Xuan: Adaptive Concurrent Topology Optimization of Coated Structures with Nonperiodic Infill for Additive Manufacturing. In: Computer-Aided Design, 129, 2020, 102918 |
| 2017 | H. Nguyen-Xuan, Son Nguyen-Hoang, T. Rabczuk, K. Hackl: A polytree-based adaptive approach to limit analysis of cracked structures. In: Computer Methods in Applied Mechanics and Engineering, 313, 2017, 1006-1039 |