The toolless production of molds using3d printing technology "Binder Jetting"
Sand casting molds from 3D printers give foundries a great many advantages – from shorter throughput times to less post-processing work and even better surface quality of the unfinished cast parts.
The Dutch pump manufacturer Nijhuis casts pump housings and impellers that weigh up to 800 kilogrammes. The Dutch engineers were impressed by voxeljet’s service centre and see enormous potential in on-demand production of 3D sand molds for metal casting.
Particulary a company like ours, which manufactures many prototypes and small batches, will benefit a great deal from the innovative 3D printing technology where time and quality are concerned.
Luke Vrielink, Development EngineerNijhuis
In conventional prototype manufacturing, it takes months to go from the drawing to the finished cast part. It’s an entirely different story with 3D printing, where the throughput time is significantly shorter. Once the CAD design has been completed, the information is e-mailed to voxeljet’s order processing department. A 3D printer generates the molds automatically and without tools in a layering process, based on these 3D CAD data. The industrial 3D printer VX4000 can print sand molds in what may be record-breaking dimensions of up to 4 x 2 x 1 meters.
Thanks to the 3D printing capabilities, the pump manufacturer can ship products faster even while reducing its stock. “The fact that we can now have the large sand molds printed at voxeljet means that we are able to ship quickly even if the model is not in stock,” says Luke Vrielink. The development engineer also finds the higher quality to be a significant advantage. With 3D printing, the sand molds correspond 1:1 to the computer model, while small deviations can always arise when producing them manually. The cost of remachining the parts is minimised by the smaller allowance.
This technology enables European foundries to become more competitive.
Luke Vrielink, Development EngineerNijhuis
The laborious and costly route to the otherwise necessary mold set-up is dispensed with. Even complex geometries can be generated with a high degree of precision and detail accuracy. Depending on the size of the piece, the printing process will take one to two days.
Further Case Studies
Aiona Cast has filed a patent application to significantly optimize electric motors. The company produced a prototype using 3D printing.
3D printing for optimized electric motors
With a new VX2000, a 3D sand printer for metal casting, Hetitec produces finished castings in a matter of days.
Scandinavia’s fastest foundry
Whether it’s aerospace, automotive or design applications, the us-based award-winning foundry Aristo Cast counts on 3D printed patters for investment casting.
Printed castings for investment casting
By using innovative technologies such as 3D printing, the prototype could soon go into series production.
Printed Castings – Optimized housing lets E-Motorcycle Batteries live longer
To the perfect prototype before series production: The British foundry BCP relies on 3D printed molds and cores not only for electric motor housings.
3D printed molds and cores for lightweight construction and electromobility
Binder jetting can be used to optimize business models for sand metal casting and investment casting, especially for the production of technical prototypes.
Printed Casting – 3D printing for foundries
voxeljet 3D printing technology for producing cast parts for electric-mobility
Electric motor housing from the 3D printer
Industrial 3D Printing Systems
Our portfolio of industrial 3D printers ranges from compact systems for research to additive mass production.
