Page 47 - ESAM-1-1

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Engineering Science in
Additive Manufacturing Gen-AI for lattice structure design

lattice support structures for metal additive manufacturing. doi: 10.3389/frai.2021.604234
J Mater Proc Technol. 2013;213(7):1019-1026.
25. Liu Y, Yang Z, Yu Z, et al. Generative artificial intelligence
doi: 10.1016/j.jmatprotec.2013.01.020 and its applications in materials science: Current situation
and future perspectives. J Materiomics. 2023;9(4):798-816.
16. Su J, Tan C, Ng FL, et al. Chew, Additive manufacturing
of novel heterostructured martensite-austenite dual-phase doi: 10.1016/j.jmat.2023.05.001
steel through in-situ alloying. Mater Today Commun. 26. Koul P. A Review of generative design using machine
2022;33:104724. learning for additive manufacturing. Adv Mech Mater Eng.
doi: 10.1016/j.mtcomm.2022.104724 2024;41:145-159.
17. Su J, Xie H, Tan C, et al. Microstructural characteristics doi: 10.7862/rm.2024.14
and tribological behavior of an additively manufactured 27. Jiang Y, Li J, Yang X, Yuan R. Applications of generative
Ti-6Al-4V alloy under direct aging and solution-aging adversarial networks in materials science. Mater Genome
treatments. Tribol Int. 2022;175:107763. Eng Adv. 2024;2(1):e30.
doi: 10.1016/j.triboint.2022.107763 doi: 10.1002/mgea.30
18. Su J, Jiang F, Li J, et al. Phase transformation mechanisms, 28. Geng X, Wang F, Wu HH, et al. Data‐driven and artificial
microstructural characteristics and mechanical intelligence accelerated steel material research and
performances of an additively manufactured Ti-6Al-4V intelligent manufacturing technology. Mater Genome Eng
alloy under dual-stage heat treatment. Mater Des. Adv. 2023;1(1):e10.
2022;223:111240. doi: 10.1002/mgea.10
doi: 10.1016/j.matdes.2022.111240 29. Xu D, Zhang Q, Huo X, Wang Y, Yang M. Advances in data‐
19. Tang S, Li L, Su J, Yuan Y, Han Y, Fan J. Unveiling micro- assisted high‐throughput computations for material design.
scale mechanisms of in-situ silicon alloying for tailoring Mater Genome Eng Adv. 2023;1(1):e11.
mechanical properties in titanium alloys: Experiments doi: 10.1002/mgea.11
and computational modeling. J Mater Sci Technol.
2025;220:150-163. 30. Viswanath A, Khalil M, Khan MK, Al Maskari F,
Cantwell WJ, Khan KA. A novel design strategy to
doi: 10.1016/j.jmst.2024.08.064 enhance buckling resistance of thin-walled single-cell
20. Wang S, Wang J, Xu Y, Zhang W, Zhu J. Compressive lattice structures via topology optimisation. Virt Phys
behavior and energy absorption of polymeric lattice Prototyp. 2024;19(1):e2345390.
structures made by additive manufacturing. Front Mech Eng. doi: 10.1080/17452759.2024.2345390
2019;15:319-327.
31. Zhang C, Liu J, Yuan Z, et al. A novel lattice structure
doi: 10.1007/s11465-019-0549-7 topology optimization method with extreme anisotropic
21. Bogusz P, Poplawski A, Stankiewicz M, Kowalski B. lattice properties. J Comput Des Eng. 2021;8(5):1367-1390.
Experimental research of selected lattice structures doi: 10.1093/jcde/qwab051
developed with 3D printing technology. Materials (Basel). 32. Liu Y, Zheng G, Letov N, Zhao YF. A Survey of modeling
2022;15(1):378.
and optimization methods for multi-scale heterogeneous
doi: 10.3390/ma15010378 lattice structures. J Mech Des. 2021;143(4):1-59.
22. Gongora AE, Friedman C, Newton DK, et al. Accelerating doi: 10.1115/1.4047917
the design of lattice structures using machine learning. Sci 33. Lan T, Peng C, Fox K, Do T, Tran P. Triply periodic minimal
Rep. 2024;14(1):13703. surfaces lattice structures: Functional graded and hybrid
doi: 10.1038/s41598-024-63204-7 designs for engineering applications. Mater Sci Addit Manuf.
2023;2(3):1753.
23. Lee S, Zhang Z, Gu GX. Generative machine learning
algorithm for lattice structures with superior mechanical doi: 10.36922/msam.1753
properties. Mater Horiz. 2022;9(3):952-960. 34. Lai Z, Zhao M, Lim CH, Chua JW. Experimental and
doi: 10.1039/d1mh01792f numerical studies on the acoustic performance of simple
cubic structure lattices fabricated by digital light processing.
24. Hughes RT, Zhu L, Bednarz T. Generative adversarial Mater Sci Addit Manuf. 2022;1(4):e22.
networks-enabled human-artificial intelligence collaborative
applications for creative and design industries: A systematic doi: 10.18063/msam.v1i4.22
review of current approaches and trends. Front Artif Intell. 35. Jadhav Y, Berthel J, Hu C, Panat R, Beuth J, Barati Farimani A.
2021;4:604234. Generative lattice units with 3D diffusion for inverse design:

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