HOME > Profile > NANDAL, Vickey
- Address
- 305-0044 1-1 Namiki Tsukuba Ibaraki JAPAN [Access]
Research
- Keywords
Artificial Intelligence, Machine Learning, Materials Integration by Network Technology (MInt), Ni-based Superalloys, Advanced Characterization Techniques, High Entropy Alloys, Advanced Alloys
Recently, we have utilized a state-of-the-art Artificial Intelligence (AI) technique for a precipitation hardenable Ni-based alloy to predict more flexible non-isothermal aging (NIA) and to examine the possible routes for the enhancement in mechanical strength that may be practically achieved. Furthermore, AI is used to integrate with Materials Integration by Network Technology (MInt) system, which is a computational workflow utilized to model the microstructure evolution and evaluate the 0.2% proof stress for isothermal aging and NIA. Employing the essence from AI, we have succeeded in designing an optimum aging route (i.e., AI-inspired expert design) in which we attained an outperformed 0.2% proof stress to AI-designed NIA best case. (Nandal et al., Scientific Reports, Vol. 13, 12660, 2023)
PublicationsNIMS affiliated publications since 2004.
Research papers
- Vickey Nandal, Sae Dieb, Dmitry S. Bulgarevich, Toshio Osada, Toshiyuki Koyama, Satoshi Minamoto, Masahiko Demura. Artificial intelligence inspired design of non-isothermal aging for γ–γ′ two-phase, Ni–Al alloys. Scientific Reports. 13 [1] (2023) 12660 10.1038/s41598-023-39589-2 Open Access
Presentations
- NANDAL, Vickey, DIEB, Sae, BULGAREVICH, Dmitry, OSADA, Toshio, KOYAMA Toshiyuki, MINAMOTO, Satoshi, DEMURA, Masahiko. Critical Assessment of AI-Founded Non-Isothermal Aging Treatment Schedules for Improving 0.2% Proof Stress in Binary Ni-Al Alloys. MRM2023/IUMRS-ICA2023 Materials Innovation for Sustainable Development Goals. 2023
- NANDAL, Vickey, DIEB, Sae, BULGAREVICH, Dmitry, OSADA, Toshio, Toshiyuki Koyama, MINAMOTO, Satoshi, DEMURA, Masahiko. Utilizing Artificial Intelligence and Expert Knowledge to Optimize Non-Isothermal Aging Heat Treatment for Enhancing 0.2% Proof Stress in γ – γ' Binary Ni-Al Alloys. 14th ISAJ Symposium (Integrated Science for a Sustainable Society). 2023
- NANDAL, Vickey, DIEB, Sae, BULGAREVICH, Dmitry, OSADA, Toshio, KOYAMA Toshiyuki, MINAMOTO, Satoshi, DEMURA, Masahiko. Optimizing Heat Treatment Routes for Ni-Based Alloys Using Monte Carlo Tree Search. Materials Science & Technology (MS&T23) Technical Meeting and Exhibition. 2023
Society memberships
The Japan Institute of Metals and Materials (JIMM) Japan, The Indian Institute of Metals (IIM) India, The Minerals, Metals & Materials Society (TMS) USA, The Indian Scientists Association in Japan (ISAJ)
Awards
- Best Poster Presentation Award in 14th ISAJ Symposium "Integrated Science for a Sustainable Society" at Hokkaido University, Sapporo, Japan (2023)