It is well known by previous important studies that mandible flexes during different jaw movements. According to this assumption it is very important to know how implant supported fixed partial dentures could restrict mandibular movements and, could lead to excess strain accumulation that could modify the resolution of implant treatment. The aim of our project is to create a bio-faithful model able to recreate mandibular movements, during three point bending test methods of (FIXED -PARTIAL -DENTURES) FPDs, to avoid a not flexible metal base, where models' properties doesn't allow to obtain a bio-faithful simulation during testing phases.
Vertucci, V., Montani, M., Arcuri, C., Cardelli, P. (2017). Three-point bending test simulation on implant FPDS with a bio-faithful model. ORAL & IMPLANTOLOGY, 10(1), 53-58 [10.11138/orl/2017.10.1.053].
Three-point bending test simulation on implant FPDS with a bio-faithful model
VERTUCCI, VINCENZO;MONTANI, MATTEO;Arcuri C.;Cardelli P.
2017-01-01
Abstract
It is well known by previous important studies that mandible flexes during different jaw movements. According to this assumption it is very important to know how implant supported fixed partial dentures could restrict mandibular movements and, could lead to excess strain accumulation that could modify the resolution of implant treatment. The aim of our project is to create a bio-faithful model able to recreate mandibular movements, during three point bending test methods of (FIXED -PARTIAL -DENTURES) FPDs, to avoid a not flexible metal base, where models' properties doesn't allow to obtain a bio-faithful simulation during testing phases.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
