DI LEONARDO, Sofia
DI LEONARDO, Sofia
Ingegneria
A novel mono-physics particle-based approach for the simulation of cardiovascular fluid-structure interaction problems
2024-03-01 Monteleone, A.; Di Leonardo, S.; Napoli, E.; Burriesci, G.
Double‐loop suture repair of radial meniscal tears provides favourable biomechanical performance compared to conventional repair techniques: A biomechanical study
2025-07-18 Petillo, A.; Di Rosa, A.; Burgio, C.; Di Leonardo, S.; Burriesci, G.; Bosco, F.; Lucenti, L.; Camarda, L.
Effect of nanocomposite chitosan/hydroxyapatite pH-induced hydrogels on the osteogenic differentiation of spheroids from adipose stem cells
2025-04-01 Di Stefano, A.B.; Di Marco, C.; Toia, F.; Trapani, M.; Testa, M.; Di Leonardo, S.; Burriesci, G.; Franza, M.; Cammarata, E.; Cordova, A.; Lopresti, F.; La Carrubba, V.
Effect of the apron in the mechanical characterisation of hyperelastic materials by means of biaxial testing: A new method to improve accuracy
2024-02-01 Di Leonardo S.; Monteleone A.; Caruso P.; Meecham-Garcia H.; Pitarresi G.; Burriesci G.
Evaluation of NiTi under low-amplitude cyclic loading by means of thermographic harmonic analysis
2025-07-01 Pinto V.; Cappello R.; Di Leonardo S.; Catalanotti G.; Burriesci G.; Pitarresi G.
Hydrodynamic Alterations Produced by Subaortic Membranes: An in Vitro Study
2025-08-01 Di Leonardo, S.; Vella, D.; Pisano, C.; Argano, V.; Burriesci, G.
Hydrodynamic ex vivo analysis of valve-sparing techniques: assessment and comparison
2023-03-01 Leonardo S.D.; Vella D.; Grillo C.S.; Martorana C.; Torre S.; Argano V.; Burriesci G.
Inversion of the thermomechanical response in nitinol under cyclic loading: an analytical interpretation based on the thermoelastic effect theory
2025-12-01 Pinto, V.; Di Leonardo, S.; Pitarresi, G.; Burriesci, G.
Investigation of the thermomechanical response of cyclically loaded niti alloys by means of temperature frequency domain analyses
2021-12-19 Di Leonardo S.; Cappello R.; Burriesci G.; Pitarresi G.
ON THE THERMOMECHANICAL RESPONSE OF NiTi SUPERELASTIC ALLOYS UNDER LOW AMPLITUDE FATIGUE
2023-01-01 Valentina Pinto, Riccardo Cappello, Sofia Di Leonardo, Giuseppe Catalanotti, Gaetano Burriesci, Giuseppe Pitarresi
Standard mechanical testing is inadequate for the mechanical characterisation of shape-memory alloys: Source of errors and a new corrective approach
2022-04-01 Di Leonardo S.; Pitarresi G.; Burriesci G.
The Role of Patient-Specific Morphological Features of the Left Atrial Appendage on the Thromboembolic Risk Under Atrial Fibrillation
2022-07-14 Musotto G.; Monteleone A.; Vella D.; Di Leonardo S.; Viola A.; Pitarresi G.; Zuccarello B.; Pantano A.; Cook A.; Bosi G.M.; Burriesci G.
Unconventional application of Image Correlation techniques on Biomaterials and cardiovascular applications
2022-01-01