In this article, optical 3D acquisition, reverse engineering and rapid prototyping are proposed for virtual sculpturing and fabrication of facial prostheses. A novel approach to the direct mould production by means of rapid prototyping fabrication is introduced. Full coverage of the surface is obtained by using multi-view acquisition and alignment of point clouds. Suitable topological description is provided by triangle tessellation. Depending on the clinical case, one or two prototypes can be used either to directly cast the final prosthesis or to fabricate the positive wax pattern. The method has been applied to the development of a nose prosthesis; its generality is investigated in the case of virtual ear modelling. The advantages with respect to known art manufacturing methods are addressed. © 2009 Taylor & Francis.
Virtual and physical prototyping by means of a 3D optical digitizer: Application to facial prosthetic reconstruction / Sansoni, Giovanna; Cavagnini, Gianluca; Docchio, Franco; Gastaldi, Giorgio. - In: VIRTUAL AND PHYSICAL PROTOTYPING. - ISSN 1745-2759. - 4:4(2009), pp. 217-226. [10.1080/17452750903236658]
Virtual and physical prototyping by means of a 3D optical digitizer: Application to facial prosthetic reconstruction
Gastaldi, Giorgio
2009-01-01
Abstract
In this article, optical 3D acquisition, reverse engineering and rapid prototyping are proposed for virtual sculpturing and fabrication of facial prostheses. A novel approach to the direct mould production by means of rapid prototyping fabrication is introduced. Full coverage of the surface is obtained by using multi-view acquisition and alignment of point clouds. Suitable topological description is provided by triangle tessellation. Depending on the clinical case, one or two prototypes can be used either to directly cast the final prosthesis or to fabricate the positive wax pattern. The method has been applied to the development of a nose prosthesis; its generality is investigated in the case of virtual ear modelling. The advantages with respect to known art manufacturing methods are addressed. © 2009 Taylor & Francis.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
