Dyndrite Releases LPBF Pro Software for 3D Metal Printing and Launches VIP Onboarding Program
Dyndrite releases Dyndrite LPBF Pro, an application built to empower a spectrum of additive manufacturing professionals, such as materials scientists, engineers, and manufacturers utilizing Laser Powder Bed Fusion (LPBF) printers including Aconity3D, EOS, Renishaw, and SLM. This software enhances precision, traceability, and repeatability, streamlining processes and pushing the boundaries of additive manufacturing and can be accessed through our newly launched VIP Onboarding Program.
- Dyndrite Laser Powder Bed Fusion (LPBF) Pro software brings power, freedom, and control to materials scientists, process engineers, application engineers, quality engineers, and production engineers.
- Software gives AM professionals GUI and Python programmable tools to develop new parameter strategies and optimization routines, streamline materials and process development, accelerate repeatable qualification processes, eliminate the tedious error-prone nature of manual build prep, and enable lights-out-metal printing.
- No hidden fees through required modules or build processors.
- Offers VIP onboarding for key industries and 3D metal printing users.
SEATTLE, WA, November 6th, 2023 — Dyndrite™, a leading provider of the GPU-accelerated computation engines for next-generation digital manufacturing hardware and software, is excited to announce immediate availability of VIP Onboarding for Dyndrite LPBF Pro, a powerful new application for Laser Powder Bed Fusion (LPBF) professionals. This new software empowers 3D printing users with previously unattainable part printing capabilities, accelerated build rates, and cost savings.
Metal 3D printing, projected to experience substantial annual growth between 23-30% in the coming decade, stands as the current pinnacle of additive manufacturing achievements. As this technology advances, offering expanded capabilities for final part production, there is a growing demand from defense, rocket, aero and automotive manufacturers for more advanced tools. These sought-after tools are expected to not only streamline existing processes, but also maximize the potential of their machine and extract more value from existing materials. Dyndrite LPBF Pro has been purposefully designed to meet the needs of this community. It caters to enterprise users who are pushing past the boundaries of outdated formats such as the STL and legacy applications that primarily rely on manual user interfaces and tribal knowledge.
“In AM, software has become the bottleneck limiting industrial users from adopting and maximizing the value from AM technologies," explained Harshil Goel, CEO, Dyndrite. “Dyndrite’s mission is to break this bottleneck by equipping AM engineers with tools that make them effective at their job. These tools naturally deliver precision, traceability, and repeatability, serving not only those pushing the boundaries but also those seeking an on-ramp as new customers embracing AM as a scalable and reliable manufacturing process.”
Dyndrite LPBF Pro gives users unprecedented power, freedom and control over their LPBF process. It gives material, quality, process, and applications engineers scalable multi-threaded CPU and GPU-powered performance to solve their toughest geometry and compute challenges, while streamlining their print preparation processes. It enables materials experts to experiment, iterate and innovate, while quality engineers simplify and accelerate their qualification processes.
“For over 6 years AMS has worked with aerospace, space and motorsport companies to push the boundaries of what’s possible in LPBF,” said Rob Higham, CEO of Additive Manufacturing Services (AMS) Ltd. “Within two days of using Dyndrite we were able to print a thin-walled heat exchanger that, for over 18 months others attempted and failed to print - such an achievement speaks for itself.”
“When CobraMoto made the commitment to AM, we went all-in. We changed our design philosophy, we changed our manufacturing processes, we even modernized our accounting systems to reflect the difference in our business,” said Sean Hilbert, CEO of CobraMoto. “With Dyndrite, the last piece of the puzzle is in place. Up to this point, all build manager software made the implicit assumption that AM would only be used for one-off or very low volume situations. Dyndrite is further opening up our world to efficiency, personalization, and automation like we have never seen before, and now finally, we can see an end-to-end solution for high volume, efficient, additive manufacturing of our products.”
“At Elementum 3D our aim is to provide our customers with the highest quality product we can deliver. Using Dyndrite we surpassed our internal parameter set results on the very first try,” said Dr. Jacob Nuechterlein, CEO, Elementum 3D. “Dyndrite LPBF Pro allowed us to increase the quality of our material parameters, while dramatically reducing the time it takes to prepare, test, and qualify each build. Dyndrite helps Elementum 3D deliver a better product to our customers.”
“Renishaw has followed Dyndrite with interest since their launch. Upon receiving Dyndrite LPBF Pro with Quantum integration we immediately wanted to demonstrate how this connection could potentially increase the robustness of the certification of production processes,” said Kevin J Brigden, AMG Applications Engineering Manager, Renishaw, Inc. “In particular, we want to show how volumetric segmentation can be used to deliberately induce non-conformance in specific regions of 3D geometry. The ability of the QuantAM API to allow complete control of RenAM500 series laser parameters enables a simulation of process degradation by deliberately ‘fudging’ the laser parameters in these regions of interest. This is merely the first step along that journey and in coming work, we will be leveraging machine learning approaches to help customers actually put this information to meaningful use.
Using Dyndrite’s powerful geometry region segmentation we can easily create advanced complex toolpaths for the Renishaw machine than those normally generated with other software. In a Design of Experiments we deliberately controlled and varied the laser power along the leading edge of an array of blade singlets, one of the most critical functional areas for performance and quality control. Exaggerated for visual effect here, the range of samples show increasing thermal input across blade samples to the point of deliberate non-conformance and poor build quality.
This approach is novel as it shows how optimal print parameters can be systematically derived, and a functional process engineering window explored using Dyndrite software with the Renishaw QuantAM’s API to allow complete control of RenAM500 series laser parameters to make more performant parts faster, especially useful with multi-laser systems.
These exciting results also offer the possibility to use simulation software to define the regions, again accelerating development and, during print, the ability to use machine learning to identify areas for subsequent further parameter refinement.”
“At Aconity3D we’ve longed for more powerful and flexible software to drive our metal 3D printing machines, especially for experimentation and research,” said Yves Hagedorn, CEO, Aconity3D. “Dyndrite LPBF Pro with its built-in Python scripting interface immediately enabled our researchers to create programmatic builds that would normally take days or weeks to complete, if at all. We’re excited to put Dyndrite LPBF Pro on our price list and recommend it to our customers.”
“We’ve enjoyed working directly with Dyndrite in support of SLM’s 3D metal printing product line, including our flagship NXG XII 600,” said Garett Purdon, Vice President of Sales - Americas at SLM Solutions. “We’ve seen first hand how Dyndrite’s capabilities help bring new customers to our platform and supercharge their additive manufacturing process. We look forward to working more closely with the Dyndrite team to further explore how their tools can enhance SLM’s value-proposition.”
Dyndrite LPBF Pro interfaces directly with a wide variety of 3D metal printing machines including: Aconity3D, Renishaw, SLM, and others. Dyndrite is a member of the EOS developer network.
Visit Dyndrite in Hall-11-1 stand F51 at the Formnext 2023 conference in Frankfurt, Germany from November 7th-9th 2023.
Dyndrite’s mission is to fundamentally change how geometry is created, transformed and transmitted on a computer. Our Accelerated Computation Engine (ACE) is the world’s first (geometry agnostic), multi-threaded, GPU-accelerated geometry engine. We create and license tools, such as Dyndrite LPBF Pro, to give companies the power, freedom and control necessary to deliver on the potential of digital manufacturing.
The company’s team of mathematicians, computer scientists, and engineers exists to help our partners and customers solve the toughest geometry, compute and automation problems so they can deliver digital manufacturing systems at scale. We aim to ignite their purpose.
Investors include Gradient Ventures, Google’s AI-focused Investment Fund and Carl Bass, former Autodesk CEO. The company was founded in 2015 and is headquartered in Seattle, WA. Dyndrite was named a World Economic Forum Technology Pioneer for 2021.
For more information visit: www.dyndrite.com
Dyndrite and Dyndrite LPBF Pro are trademarks of Dyndrite Corporation. All other trademarks and registered trademarks previously cited are hereby recognized and acknowledged.
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Dyndrite is a trademark of Dyndrite Corporation. All other trademarks and registered trademarks previously cited are hereby recognized and acknowledged.