Dyndrite announced a collaboration with Novanta Corp. in support of their Firefly 3D and Lightning II laser beam steering solutions. The companies will collaborate on a proof-of-concept that will allow Dyndrite software to directly generate low-level scanning trajectories for Novanta hardware. This provides users of Dyndrite Additive CAM software the ability to generate very fine resolution scanner trajectories, which makes full use of the advanced functions and underlying power of the laser scanner hardware.
Novanta’s high-precision scanning solutions, used in a wide variety of laser powder bed fusion (LPBF) machines, are often not fully utilized by standard trajectory strategies. Novanta scanning solutions are often capable of being operated at much higher levels of performance with a wider range of scan strategies than often made available to the open market today.
Engineered as an enclosed, compact solution to enable multi-headed machine architectures with up to 100% overlap, Firefly 3D is the ideal solution for today’s serial production high throughput additive manufacturing machines. Incorporated within the design are features to simplify installation and operation including features such as precise monitoring of the additive manufacturing process and synchronized process and motion data.
Parameter and scanning pattern development is a massive undertaking when qualifying new materials and machines. For this reason, often there is a conservatism that leads users and developers of machines, and the software that drive them, to stay within traditional approaches, relying on standardized scanning patterns such as checkerboard or similar hatch-based approaches. The result is often a reduction in efficiency and the missed potential of realizing improvements in material microstructures.
Dyndrite aims to disrupt this traditional model of parameter development by providing unprecedented software power, freedom and control over the scanner. These controls and algorithms can leverage the power of the underlying hardware to deliver more efficient, less costly machine design and better process interactions which can lead to better material properties and accelerated build rate.
For more information about Dyndrite, visit www.dyndrite.com.