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Intriguity > Products > Solidscape > Overview

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Solidscape Inc is the leading manufacturer of high-precision 3D modeling systems for lost wax casting applications. Solidscape systems incorporate innovative technology that advances the state-of-the-art in computer-controlled fabrication of solid models by providing the highest standards for surface finish and material castability. And these systems are true office peripherals—residing on a desk or sturdy table, building with non-toxic materials and requiring no special facility modifications.

Solidscape systems are marketed worldwide and are used in diverse manufacturing applications such as jewelry, dental and medical prosthetics, power generation and consumer goods

Solidscape works on the technology of Additive Manufacturing ie the model is built layer by layer.

  • Additive Process ie layer by layer.
  • Dual Material Construction Process.
  • Finite Control over layer thickness.
  • Curing done by self cooling & precision machining.

DODJET Technology
DODJET is technology based on Drop on Demand Jetting.

  • Jetting is 6000 to 12000 microdroplets per second.
  • Droplets are normally 0.003 inches in diameter.
  • DODJET technology delivers 1/10th the stair stepping of competitive processes.
  • It achieves a surface finish of 32-63 Micro Inches (RMS).

Rastored Jetting

  • In other RP processes, multiple jets move in one direction only & fire independently.
  • This results in tessellated edges & a rough surface finish.

Vectored Jetting

  • In Solidscape, jets can simultaneously move in the X and Y directions. This allows the jets to precisely trace curves.
  • For this particular reason, the models designed on Solidscape have smooth & crisp edges with superior surface finish.
  • Its like an artist drawing a sketch with a pencil.

Precision Machining

  • In Solidscape, the planer surfacer machines each layer to a precise thickness.
  • Variable layer thickness can be obtained.
  • This makes the Z-Axis extremely precise.
  • Power failure recovery is possible due to milling of bad layers.
  • Good layer to layer deposition is obtained.

Without Machining

  • In RP processes without machining, layer thickness variation is seen throughout the part.
  • Multiple layer thickness is not possible.
  • Power failure recovery is not possible.
  • Inaccuracies ripple throughout the part.
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