Create Affordable Cast Metal Parts with 3D Printing

Learn how castable FDM prints can be used to produce low-cost metal parts via investment casting.

Using 3D printing to produce metal parts

DMLS

DMLS is a powder bed fusion technology that is used to produce metal parts to a high level of dimensional accuracy. The additive nature of 3D printing means that very complex designs are able to be created. The design freedom offered by DMLS has seen it adopted by many industries (automotive and aerospace) where weight optimisation and performance are critical (the cost of operating a commercial aircraft is roughly €1000/kg meaning any weight saving result in significant savings in operation costs). This has seen these industries willing to justify the high per part cost of DMLS based on the cost savings of producing complex lighter parts. It is always advisable to compare the cost of using a 3D printing service provider and buying your own metal 3D printer.

DMLS can produce parts from a large range of metals including aluminium and stainless steel as well as exotic biocompatible materials used in dentistry and medical industries like titanium. The main limitations of DMLS are the high cost, small build size and long lead times compared to other 3D printing technologies. Parts also require support material to limit the likelihood of distortion and warping occurring and this must also be removed after printing further increasing lead time and cost.

A large number of metal crown and bridge copings printed in a single print

(image courtesy of Renishaw)

Investment casting

The investment casting process traditionally uses wax patterns to produce molds for casting, as it has a very clean burn-out with no residues. The image below presents the process.

For low-run investment casting, patterns are traditionally machined from a wax block via CNC. Alternatively, for larger series, a die is machined and the patterns are created by casting the wax using the die. Tooling is a very expensive investment with production of the dies often taking a very long time (2 - 6 weeks).

3D printing is now regularly used in conjunction with a range of investment casting applications to produce patterns from castable materials. Castable 3D prints are commonplace in the dental and jewelry industries and are generally produced via the SLA / DLP printing process. This is a vat-photopolymerization technology that is able to produce parts with a very smooth surface and extremely fine details. The main limitation around SLA is the printer build volume size, or the high cost involved for larger patterns. For larger metal parts, castable FDM offers a cost effective, rapid solution.

Small, intricates design are perfect for SLA investment casting. The image above shows a castable pattern (left) printed via the SLA process and the final cast ring (ring)

(image courtesy of Formlabs)

For larger metal parts, castable FDM offers a cost effective, rapid solution.