Solidscape & LSR Unveil New Process that Reduces Time to Market
Staff posted on January 29, 2015 |
Solidscape and LSR team up to announce a unique new prototype process that will speed up time to mar...

 Solidscape, and LSR’s Design Studio, are excited to announce disruptive new prototype processes that will speed time to market. By combining Solidscape’s high precision printing with LSR’s silicone or metal mold making process, prototypes can be created in less than two weeks, compared to the typical five to six weeks needed to create most new plastic or metal parts.

The process is unlike anything currently in the market and starts with Solidscape’s unique printing process, which is both additive and subtractive in nature. Printing at a resolution of 5000 dpi, Solidscape creates beautifully printed wax patterns that do not require hand finishing. The prototyping experts at LSR, a wireless product development company, can go directly to silicon tooling or to cast metal parts without the traditional tedious hand finishing of rapid prototype parts.

“We’re excited to collaborate with LSR on this new venture and to take rapid prototyping to the next level,” said Fabio Esposito, Solidscape President. “With this new disruptive process, users can now go directly from machine to molding, expediting the time it takes to go to market.”

"We compressed our product development process considerably on a recent program. We’ve gone from weeks of machining time and $4,000 per set of metal parts, to under two days and $200. This was earth shaking for us as well our customer,” said Jim Hollister, 3D Lab Manager at LSR.

A recent case study was done for an iPhone compatible smart wearables product, where cost per unit dramatically dropped by replacing parts previously machined from brass with Solidscape’s lost wax castings. Once again, the Solidscape wax patterns created directly from digital models are put through the foundry process, providing a direct route from digital file to finished casting. Results include:

  • Less finishing time than milled metal parts
  • Parts fit together better, perfect tollerances
  • Crisp and amazing detail
  • Consistent quality on run of parts
  • Less expensive, from $4,000 to under $200 per set of metal parts
  • Much faster process
  • Ability to make design changes without expensive tooling revisions or machining
  • Ability to cast in any metal, allowing complete design flexibility
  • Production worthy first articles for design review

Source: LSR

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