Impact of 3d printing on automotive industry

3D printing in the automotive industry is now essential, additive manufacturing applications become more numerous, driving the development and adaptation of processes and technology to meet the specific needs and address the constraints of this rapidly evolving sector.

Industrial 3D printers have opened new paths at each stage of production of motor vehicles; from the functional prototyping phases, design, and tooling production to parts manufacturing, the automotive industry is one of the pioneers in the use and integration of 3D printing in its processes.

Designers use Fused Deposition Modeling (FDM) Technology to create resilient automotive prototypes and parts made from high-performance engineering thermoplastics

Designs in the automotive industry often begin as scale models showcasing the form of a vehicle. These are often also regularly used for aerodynamic testing. Stereolithography(SLA) and material jetting are used to produce high detail, smooth, scale models of automotive designs. Accurate models allow design intention to be clearly communicated and showcase the overall form of a concept.

Why 3D Printing for Automotive Design?

Replace Expensive CNC Production

By replacing expensive and lead-time critical CNC-milled parts with in-house manufactured plastic parts, you can dramatically reduce your production costs. The printed plastic parts also perform better technically, weigh less, and are well suited for the production of complex bodies that, when using conventional metal-cutting processes, would be very difficult and costly to produce. 3d printing applications in electronics & automotive industry in bhuj gujarat talegaon pune maharashtra india

3D printing has greatly reduced the number of recalls needed to replace faulty mechanical parts because engineers can test parts earlier in the development process. Many product recalls these days are for malfunctioning electronics and sensors rather than poorly designed parts.

Create Better Assembly Tools

For hand-held devices used on the assembly line, engineers can employ 3D printing to make ergonomically designed assembly aids that perform better than conventionally made tools.

Test and Identify Design Problems

In some cases using CAD models alone is not as effective at finding design problems as a 3D printed physical part – you can easily identify a component issue that may have been missed in the initial design stage.