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Unveiling UILA, a revolutionary prototype for sustainable mobility, combining eBike and Electrical Vehicle. Designed by Berlin based innovation studio nFrontier, and presented in cooperation with 3D printing partner Stratasys, UILA helps saving energy, resources and time.

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The availability of 500-700 ppm titanium powder significantly expands the number of parts that can be printed from a manufactured lot while maintaining material specifications

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Titan Tough Epoxy 85 brings world-class durability, dimensional accuracy, and repeatability to industrial additive manufacturing production.

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Relationship builds on SLM Solutions’ Open Architecture Initiative, allows Dyndrite software to directly write laser toolpath and parameters to control either single or multi-optic systems, and enables SLM® customers to design advanced materials, carry out process development, and build strategies that fit their unique needs.

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Companies to create proof-of-concept allowing Dyndrite software to directly generate low-level scanning trajectories for use with Novanta hardware * Allows Dyndrite software to directly write advanced laser toolpath to better control single or multi-optic Novanta laser systems * Enables Novanta customers to make full use of advanced capabilities of its Firefly 3D and Lightning™ II solutions * Opens up “Materials and Parameter” developers to develop highly advanced strategies to unlock improvements in material microstructures

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Furthering Sigma’s Path to Holistic Digital Quality, Dyndrite Generated Tool Paths to be Connected to In-Process Quality Data for the First Time

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Incorporates Open Vector Format file format within Dyndrite App Dev Kit. Allows Dyndrite users to directly write OVF files containing laser toolpath, parameter metadata and layer by layer streaming capability for securely driving OVF compatible single or multi-optic systems. Enables multiple different part segmentation scan strategies for optimal parameter assignments, contour parameter controls, and path planning for unique machine configurations.

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*Developer-focused 3D tool speeds development and adoption of jetting within additive manufacturing *Spurs development of robust, optimized and/or novel jetting use cases *Brings new capabilities to the market, in head, controller, and software usage

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*Development effort to focus on reversing the, “Hardware is outpacing the Software” trend in additive manufacturing *Collaboration to leverage Dyndrite’s toolpath API to calculate, create, and assign sophisticated laser process parameters based on volumetric analysis of 3D part geometry *Resulting high resolution data capable of driving SCANLAB based LPBF machines to their highest potential

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New software puts powerful new multi-threaded CPU & GPU-Powered materials and process development tools in the hands of LPBF scientists and engineers

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