ProtoGen White is suitable for general purpose applications with ABS-like specifications. A resilient material with good surface quality and thermal properties, ProtoGen White is ideal for markets that demand accurate RTV (room temperature vulcanized) patterns, highly detailed parts and durable concept models. Applications include impellers, ductwork and connectors, automotive housings, dashboard assemblies and high-end finished models.
|Standard lead time||Minimum of 3 working days , depending on part size, number of components and finishing degrees (offline orders)
4 working days (online orders)
|Standard accuracy||± 0.2% (with lower limit on ± 0.2 mm)|
|Minimum wall thickness||1 – 3 mm (depending on part dimensions)|
|Layer thickness||0.1 mm|
|Maximum part dimensions||2000 x 700 x 788 mm (offline orders)
1100 x 690 x 590 mm (online orders)
Maximum part dimensions can vary according to the chosen material and the geometry of the part
|Surface structure||Unfinished parts typically have visible building layers on the surface but post-production finishes can achieve different effects, from high glosses to coarse textures. Stereolithography parts can be sandblasted, smoothed, colored/impregnated, painted, varnished, covered and coated.|
We’ve put together our trusted tips, tricks and best practices to get you off to a solid start. If you’ve been wondering whether this material allows for interlocking parts or embossing, or if you just want to avoid common design mistakes, check out this handy design guide.
The right finish and color can transform a print into a product. Whether you’re looking for a functional finish that’s designed for lightning fast lead-times or an aesthetic finish that makes your prototype identical to the final product, take a look at your wide range of options with Stereolithography finishes at Materialise.
How Does Stereolithography Work?
Stereolithography is a laser-based technology that uses a UV-sensitive liquid resin. A UV laser beam scans the surface of the resin and selectively hardens the material corresponding to a cross section of the product, building the 3D part from the bottom to the top. The required supports for overhangs and cavities are automatically generated, and later manually removed.