SEATTLE, WA, Mar 17, 2023 – Dyndrite, providers of the GPU-accelerated computation engine used to create next-generation digital manufacturing hardware and software, announced the company’s new membership in the ASTM International Consortium for Materials Data and Standardization (CMDS) initiative which is being run through the ASTM Additive Manufacturing Center of Excellence (AM CoE). Dyndrite will collaborate with industry members chartered to standardize the requirements for AM materials data generation and create and manage shared high-pedigree “reference” datasets. The initiative aims to accelerate qualification and assist in the greater adoption of AM technologies. Dyndrite joins existing members such as AddUp, Auburn University, Boeing, Desktop Metal, EOS, Fraunhofer IAPT, GE Additive, GKN Additive, and others. See full list here.
“Dyndrite believes “standardization” is a crucial next step in the broader adoption and growth of industrial AM,” said Stephen Anderson, head of strategic relationships Dyndrite. “Whoever we talk to the clarion call is clear. Our customers and partners all want to see significant acceleration of shared materials data to unlock new AM opportunities and to scale the industry. This is a groundbreaking opportunity to unleash the full power of metal 3d printing.”
To date, individual companies have singularly borne the brunt of materials development costs and regard their results as proprietary for commercial advantage. But this leads to multiple companies wasting $m’s dollars each repetitively doing the same thing. CMDS’ work will help solve these problems allowing the sharing of materials data at a fundamental level while still allowing companies to generate I.P. and differentiate on specific geometry parameter modification.
Dyndrite recently unveiled its first end-user AM application, Dyndrite Materials and Process Development for LPBF. This GPU-based 3D application was designed for materials and process engineers developing new metal alloys and parts for laser-based 3D metal printing. It takes maximum advantage of the powerful features within Dyndrite’s groundbreaking Accelerated Computation Engine (ACE), including, the ability to perform 3D geometric queries in order to detect and optimize for difficult geometric features such as domes, cantilevers, and thin walls, the ability to speed build rates by easily working with large multiple layer heights and print rates, methods to Improve part quality by ensuring material homogeneity and controlling surface roughness, and support strategies that delivery maximum flexibility. Customers using Dyndrite can also easily create shareable build recipes (Python) that provide all the necessary information required to recreate a build and drive a variety of 3D metal printers, including Aconity, EOS, Renishaw, SLM and others.
“We are pleased that Dyndrite has decided to join the CMDS initiative and prioritize the need to standardize the data workflows needed to generate high-pedigree material data,” said Richard Huff, director of Industry Consortia and Partnerships, ASTM. “We are excited to integrate Dyndrite’s solutions to drive consistent application of requirements and maximize efficiency of CMDS data generation activities.”
“We are excited to join the ASTM consortium for materials data and standardization, and further work with the Data team,” said Steve Walton, head of product, Dyndrite. “We have built tools uniquely capable of ensuring quality and traceability through AM component production. This is increasingly important as the metal AM industry moves to generate foundational material data built upon the Common Data Model. Our work enables knowledge transfer of critical material data and pedigree needed for robust characterization of the process-structure-property relationship. Understanding and effectively communicating this concept will greatly increase the adoption of metal AM for production applications.”
Dyndrite will release build recipes that demonstrate how standardized designs-of-experiments (DoE), based on ASTM data standards, can be made using Dyndrite. ASTM members will be able to use these recipes, or make their own, across all major OEM file formats. These recipes will enable a common framework for build file generation, scan-path strategy exploration and scan-path speed and layer thickness variation, as well as methods for estimating laser(s) loads. By conforming to ASTM data protocols Dyndrite Build recipes will ensure that data is generated and recorded in a standard and repeatable manner and applicable to downstream processes, such as process qualification and calibration.
Dyndrite is committed to advancing the state of the art in additive production and aims to work collaboratively toward unleashing the full power of 3D metal printing.
For more information on the ASTM Consortium for Materials Data and Standardization (CMDS) visit: https://amcoe.org/cmds/
About Dyndrite
Dyndrite’s mission is to fundamentally change how geometry is created, transformed and transmitted on a computer. Their Accelerated Computation Engine (ACE) is the world’s first (geometry agnostic), multi-threaded, GPU-accelerated Geometry Engine. They create and license tools that give companies the power, freedom and control necessary to deliver on the potential of digital manufacturing.
Dyndrite democratizes access to a hyper-scalable, geometry-agnostic set of digital manufacturing software tools that deliver eyebrow-raising performance. 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 AM production at scale. We aim to ignite their purpose.
Investors include Gradient Ventures, Google’s AI-focused Investment Fund and former Autodesk CEO Carl Bass. 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.