Prototyping in automotive design: development of scale models with hybrid finishes and surfaces treatments.
The new digital vision typical of industry 4.0 offers the automotive sector new and advanced operational tools, functional to the best product/process system also for the prototype sector in the prototyping phase. Specifically, through a strong characterization on the use of new technologies, the “governance” of the processes linked to the creative phase of Concept Design will be increasingly manageable, where the flows of technical and stylistic information converge in the first physical identification of a new product. This operation is generally implemented through the creation of prototypes on a small scale, where the need to create new operational spaces is still governed by the ability of both the prototype maker and the performance of the hardware. In the specific, the need to create products using the new technologies attributable to the 3D printers typical of additive manufacturing, is confronted with the awareness that, in the panorama of 3D printers, the majority (85%) have operational performance limited by the extraction plate of about 300X400X400 mm. These dimensional limits in fact propose a use of printers with considerable limitations for prototypes that require development in scale with larger dimensions. The essay describes the methodology used which is based on the combined use of a careful 3D CAS modeling procedure functional to the modular rationalization of the pieces to be assembled in post-production and the hybrid techniques for the creation of the surface finishes to complete the physical prototype. This approach demonstrates the quality, technical sustainability, and inclusiveness of the digital approach as they are at the center of the project, proposing a case study of automotive design linked