TuskXC2700W is a white material that is suitable for strong, water-resistant prototypes with ABS- and PBT-like specifications (e.g. parts for water flow analysis and wind tunnel testing). Other applications include functional prototypes and high-end finished models.

Technical Specifications

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)
12 hours (NextDay orders)
Standard accuracy ± 0.2% (with lower limit on ± 0.2 mm)
Minimum wall thickness 0.8 mm
Layer thickness 0.125 - 0.15 mm
Maximum part dimensions 650 x 450 x 450 mm (offline orders)
600 x 600 x 400 mm (online orders)
600 x 400 x 75 mm (NextDay orders)
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.


  Units ASTM# Range
Density g/cm³     1.18 – 1.2
Tensile Strength MPa  D638M 47.1 – 53.6
Tensile Modulus MPa  D638M 2650 – 2880
Elongation at Break  D638M 11- 20
Flexural Strength MPa  D790M 63.1 – 74.16
Flexural Modulus MPa  D790M 2040– 2370
Notched Izod Impact J/m  D256A 20– 30
Hardness Shore D D2240 81
Heat Deflection Temp °C D648-98c at 0.46 MPa: 45.9 – 54.5
at 1.81 MPa: 49.0 – 49.7

Actual values may vary with build condition

Finishing Degrees

Finishing Support removal Curing Sandblasting Smoothing Primer Coating/Paint
Support Marks Removed      
Building layers not visible
Spray Paint    
Spray painted according to RAL color
Dead Matte Paint
Our most matte option, with gloss factor of 10%
Matte Paint
Gloss factor of 30%
Satin Paint
Gloss factor of 50%
High-Gloss Paint
Our most glossy option, with gloss factor of 90%
Soft Touch
Soft touch coating according to RAL color (translucent)
Fine-Texture Paint
Matte color paint with fine texture

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.