Applications of 3D printing in automotive
Communication and testing
With a 3D printer products can be created more quickly compared to traditional methods. While it in some cases may be a prototype and open to alterations, the 3D printed part at least provides an insight into what the product will look like. This offers a truer representation than that of a digital design. 3D printing in automotive is also used for aerodynamic testing. With the help of a 3D printer, highly detailed scaled models of automotive designs can be produced. Accurate models allow design intention to be clearly communicated, offering a more truthful representation compared to a description.
Understanding whether a product will be a success requires a lot of research, especially when it concerns traditional manufacturing methods. However, creating a prototype through 3D printing will make it possible for businesses to obtain feedback from potential customers and investors in a way that could never be achieved before. The product can be customized and altered right up to the very last minute which is something that traditional manufacturing methods do not offer. This means that 3D printing provides a unique and valuable way of identifying whether a product has the potential to make it to market and be successful at the same time.
Production of tooling
One of the territories where 3D printing has been most disruptive in the automotive industry is the production of low cost rapid tooling for injection molding, thermoforming, jigs and fixtures. Within the automotive industry this allows for tooling to be quickly fabricated, requiring little money and then used to produce a low to medium volume of parts. This validation minimizes the need (and risk) to invest in expensive tooling at the production stage.
Produce (customized) parts
Production volumes in the automotive industry are usually very high so 3D printing is mainly used for prototyping. But since the 3D printing technology is getting more advanced (bigger size, higher speed and more available materials), there are companies using it for medium volume production runs. 3D printing also enables designers to customize parts. As 3D printing in automotive is perfect for one-off productions and building single parts in one process, it means that the ability to customize is there to take advantage of. Parts can be tailored to a specific vehicle (for example custom, lightweight suspension arms) or driver (helmet and seat). Traditional methods relied on molds and cutting and this makes customizing a time-consuming process. In contrast to this, the customization of products created through 3D printing can have enhanced structural integrity, parts can be altered to fit certain requirements and its possible to make complex changes.
Joost Motoren uses 3D printing to produce hard to find spare parts of BMW motorcycles
Joost Motoren uses 3D printers to create custom motorcycle parts. “For my customers, this service has an enormous advantage as I can really fulfil all of their wishes and they are no longer dependent on the standard retail parts. We can 3D print the hard to find spare parts and it will cost us up to 90% less”. Read more about the advantages of 3D printing for Joost Motoren.
Requirements of 3D printing in the automotive industry
The development time of cars can be accelerated with 3D printing. Companies are able to prototype and make the parts quicker as they are not dependent on other third parties. When a design is ready they can immediately manufacture the part by 3D printing it. When a part does not meet their expectations, they can alter the design and print it again within a short amount of time.
The geometry of a part has affect on the weight and aerodynamics of a vehicle. 3D printing provides the opportunity for the fabrication of complex structures which still can be extremely light and stable. This provides a high degree of design freedom.
Many automotive applications require significant heat deflection minimums. 3D printing offers materials that can withstand high temperatures, even those above the 105 degrees Celsius sustained engine compartment temperatures. You can read more about how thermoplastics are a good alternative for metals.
Weight reduction is a very important aspect in the automotive industry. Automotive applications make use of advanced engineering materials and complex geometries in an attempt to reduce weight and improve performance. With 3D printing parts can be produced in lightweight polymers and metals that are commonly used in the automotive industry.
Most components that go into the production of automobiles must be moisture resistant, if not moisture proof. One big advantage of 3D printing in automotive is that all printed parts can be post processed in order to create a water resistant barrier. Additionally, many materials are already suited for humidity like PEEK and PETG.
Part consolidation is a big thing when considering how 3D printing can decrease the amount of materials being utilized, thereby lessening weight and costs. Part consolidation also reduces stock and assemblies can be replaced with a single part, should repairs or maintenance need to take place.
HAN Hydromotive reduces weight of vehicle by 40%, increasing the efficiency
Reducing the weight of the vehicle with 3D printed parts is not the only benefit for HAN Hydromotive: ''We have chosen to produce the vehicle parts with a 3D printer in-house because this way we can manage the process ourselves, without being dependent on an external organization. If we have to rely on an external company to make us a complex part, this would take a long time and a lot of money”. Read more about the advantages of 3D printing for HAN Hydromotive.
Tractus3D industrial 3D printers for the automotive industry
✓ Most advanced ✓ Competitively priced ✓ You are always covered
While much attention has been focused on the consumer marketplace, consumer-grade 3D printers are not suitable for large-scale production grade 3D manufacturing. They do not have the speed, facilities or robustness which are critical for industrial manufacturing. Our Industrial delta printers are different. Do you want to 3D print large parts at once or produce a lot of small parts in one print session, Tractus3D printers make it possible. Need light weight parts which have the similar properties as metal, with our PEEK 3D printer you can make it happen.
Create small and detailed parts
With a 3D printer on your desk you can easily create small parts and specialized tools yourself. It is far less complex than other machines, which means that you can produce more products in an efficient and simple way without the high costs. The 3D printers in our desk-series have a fast printing speed, a high accuracy and a low weight, making it easy to put on your desktop or move around.
Create strong and lightweight parts
High-performance materials, like PEEK and ULTEM® (PEI) are stronger and more resistant than other thermoplastics, making them popular in a number of engineering applications. To 3D print such materials, you need a special printer that can handle very high temperatures. The High Temperature printer is designed for 3D printing high performance thermoplastics, which are strong and durable for long-lasting parts.
Create large parts up to 2,1 meters
The ability to use 3D printing to enhance business operations, reduce costs and improve efficiency is exactly why a 3D printer has become a popular solution. If you’re looking for a way to produce detailed and big objects our large volume 3D printers are an excellent choice. They have a much larger build size than most other industrial 3D printers and can print objects fast at a high resolution.
Do you have a question about 3D printing in automotive? Please don't hesitate to contact us!
Find out exactly how 3D printing can improve both end results and the bottom line of your business. 3D printing positively affect many aspects, including production time and avoiding costly errors. Our experts can tell you more about it so together we can discover how and where 3D printing can have a significant impact. Contact us so we can start discussing the possibilities.