Emanuelli, L.; Babaei, M.; De Biasi, R.; du Plessis, A.; Trivisonno, A.; Agostinacchio, F.; Motta, A.; Benedetti, M.; Pellizzari, M.
Optimising β-Ti21S Alloy Lattice Structures for Enhanced Femoral Implants: A Study on Mechanical and Biological Performance. Materials 2025, 18, 170.
https://doi.org/10.3390/ma18010170
AMA Style
Emanuelli L, Babaei M, De Biasi R, du Plessis A, Trivisonno A, Agostinacchio F, Motta A, Benedetti M, Pellizzari M.
Optimising β-Ti21S Alloy Lattice Structures for Enhanced Femoral Implants: A Study on Mechanical and Biological Performance. Materials. 2025; 18(1):170.
https://doi.org/10.3390/ma18010170
Chicago/Turabian Style
Emanuelli, Lorena, Melika Babaei, Raffaele De Biasi, Anton du Plessis, Andrea Trivisonno, Francesca Agostinacchio, Antonella Motta, Matteo Benedetti, and Massimo Pellizzari.
2025. "Optimising β-Ti21S Alloy Lattice Structures for Enhanced Femoral Implants: A Study on Mechanical and Biological Performance" Materials 18, no. 1: 170.
https://doi.org/10.3390/ma18010170
APA Style
Emanuelli, L., Babaei, M., De Biasi, R., du Plessis, A., Trivisonno, A., Agostinacchio, F., Motta, A., Benedetti, M., & Pellizzari, M.
(2025). Optimising β-Ti21S Alloy Lattice Structures for Enhanced Femoral Implants: A Study on Mechanical and Biological Performance. Materials, 18(1), 170.
https://doi.org/10.3390/ma18010170
