Introducing 3D printed casting to traditional artisans


A local engineering foundry needed to make a casting pattern for a machine part within a tight deadline. They had the following criterion-

• The surface finish of the pattern should be good.

• Draft angles should be accurate.

• Dimensions should be accurate.

• The casting pattern should be strong enough to handle high temperatures and pressure.


What was provided- We were provided a sample pattern which was used previously along with a drawing with the same.

How we delivered this- When we received the sand casting pattern mould sample, the first thing that we did was to make a virtual 3D model of it. We ensured that all the minute details and contours of the casting pattern were represented correctly and accurately on the 3D virtual model that we had made. The customer also wanted us to incorporate 4 holes at the corners of the casting pattern for easy fitting, which we did so using the virtual model itself.

Once this virtual model was approved, we 3D printed it at our premises within a short span of 2 days from the time that we got the sample to the time the casting pattern was ready. If the engineering foundry owner had gone through the conventional route to make the moulds, it would have taken him at least a week to get the casting patterns ready.


With 3D printing from STPL-VURO, we managed to do the entire pattern casting mould in a fraction of time and cost as against conventional methods. In the case this PLA (Polylactic Acid) Polymer pattern gets damaged or develops cracks it can be easily repaired or modified as and when needed. The PLA Polymer used is capable to withstanding high temperatures and pressures for sand casting use just as conventional alloy metal pattern casting moulds do.

Just as this case, there are many such ways in which STPL-VURO has helped local industries, artists and workshops to use 3D printing technology to better their production processes.

Sand Casting

Engineering Pattern

3D printed sand casting