Not only for the production of optimized lightweight housings for electric motors, the British company Brooks Crownhill Limited (BCP) relies on 3D printing systems from voxeljet. For a lot of automotive parts, BCP counts on prototypes produced using 3D sand printing well before they are ready for series production. The advantage: the ability to design highly complex parts without having to keep expensive tools on hand. Plus, with the right approach completely new designs emerge, as additive manufacturing offers unique design possibilities. The reason for this is that additive manufacturing allows end users to thoroughly inspect and extensively test the newly designed components before the production tools are manufactured. This saves a massive amount of time and money.
Molds made of sand are relatively cost-effective and sufficiently refractory for the application in steel and, above all, aluminum foundries. For this reason, casting with sand molds continues to enjoy great popularity, especially in the automotive industry. Modern industrial 3D printing has opened up completely new possibilities for foundries, since with the help of 3D printing systems, such as the binder jetting systems from voxeljet, even highly complex molds and cores can be manufactured. Over 60 percent of all metal castings are produced by sand casting.
Brooks Crownhill Sales Director: Cooperation with voxeljet irreplaceable
Lee Henderson, Sales Director at Brooks Crownhill, comments on the collaboration with voxeljet: “We have been using 3D printing and casting, or printed castings, for quite some time now. The immense advantages are obvious. The process is fast, cost-effective and gives designers enormous creative freedom. This is important for rethinking established components and saving as much material as possible, for example by optimizing the topology of the components.” BCP largely manufactures engine components and, more recently, housing components for electric motors for its customers in the automotive sector.
"We have to make our parts lighter and lighter. And we need to do this while maintaining, or even better, increasing load-bearing capacity and extending the service life of the parts. This is where voxeljet comes to our aid with its 3D sand printing." Lee Henderson, Sales DirectorBrooks Crownhill
So-called lightweight design is one of the most important design trends of recent years. Customer designs are being pushed further and further to the limits of manufacturability: thinner wall sections of the entire casting and higher tolerance bands for positional accuracy. “3D sand printing is therefore irreplaceable. Not only because it allows us to realize geometries that would not be possible using conventional processes such as milling or core shooting, but especially when we want to test brand new designs, we need the optimized prototypes quickly. We then take a close look at these with specific integrity tests (NDT, Non-Destructive Testing) before we give the go-ahead for series production,” says Sales Director Henderson.
Impact of 3D printing on metal casting: design possibilities and feasibility
“In modern engineering, 3D printing means above all that we can print complex inner cores as one part. This saves us a lot of work in casting preparation. And we can be confident that all tolerances on wall thickness and the associated stability of the cores will be maintained during the enormous stresses of metal casting,” says Henderson. “Further economic opportunities are opened up by time-saving printed castings when you reduce potential costs and conventional assembly time on complex core-stack assemblies line-side. This has a direct impact on the business model, ongoing costs and delivery times to the customer.”
However, Henderson also notes that the benefits of additive manufacturing of molds and cores are not yet one hundred percent clear in the minds of engineers. “3D printing, unfortunately, still has a niche existence. It is increasingly recognized within the foundry industry as a fully-fledged manufacturing process for casting molds, but I’m not sure to what extent the advantages are even known by both engineers and also the key buyers. There are still unimagined design and cost opportunities that could be leveraged here.”
Designed for Manufacturing versus Designed for Functionality
Greater latitude in the design of 3D printed sand molds is closing the gap between “design for manufacturing” and “design for functionality”. Casting expert Henderson: “Today, engineers can use finite element analysis (FEM) to optimize functionality and then directly 3D print the designs. This makes the design of engine parts, for example, a lot faster and, more importantly, the components are stronger, which in turn allows drastic weight reductions. This is extremely attractive, especially in the wake of current environmental regulations such as lightweight construction, and the associated energy savings.”
3D printing offers more than mere product optimization
But the advantages do not stop there. “With 3D printing, we can plan gas channels into the sand cores and molds during the design stage. These are used for venting and outgassing during the casting process, making our job much easier, and has a great effect on the quality of the cast parts, in terms of density and surface quality” Henderson explains. ” Adding structural tie rods for better transportability of the parts is also possible and simplifies the handling of the printed parts.”
BCP also relies on the use of different sand systems for each application. For example, high-strength and high-temperature cores to ensure stability and concentricity of the inner cores during the casting process of high temperature alloys. For this purpose, they operate with Cerabeads in combination with phenolic resins for high strength and temerature resistance.