Baker Hughes Successfully Implements Oqton Manufacturing OS System to Optimize Additive-Driven Manufacturing Workflow
3D Systems say this successful implementation demonstrates its Oqton Manufacturing OS’ ability to accelerate the design and production of additively manufactured parts across the entire manufacturing workflow to increase efficiency and facilitate regulatory compliance.
Oqton Manufacturing OS enables end-to-end additive-based workflow management and real-time monitoring to deliver a decentralized manufacturing solution. Source: 3D Systems Inc.
3D Systems says it has achieved a significant milestone in commercializing the Oqton Manufacturing OS as Baker Hughes successfully deploys the system as its production solution for additive-driven manufacturing workflow in Houston, Texas. The system is designed to enable on-demand additive manufacturing (AM) in regulated markets by providing full factory-floor workflow integration, thus transforming how products are brought to market.
Baker Hughes, an energy technology company, is now in full production with the Oqton Manufacturing OS in its central manufacturing facilities in Houston. This milestone is part of a commercial software agreement Baker Hughes entered with Oqton (a wholly-owned, independently operated subsidiary of 3D Systems) in March 2023, and reinforces the companies’ shared vision to support decentralized manufacturing.
The successful implementation of this solution by Baker Hughes demonstrates the Oqton Manufacturing OS’ ability to accelerate the design and production of additively manufactured parts across the entire manufacturing workflow to increase efficiency and facilitate regulatory compliance.
Baker Hughes began using Oqton Manufacturing OS and the Oqton operating system in June 2024 to scale the role of AM within its manufacturing workflow without compromising quality or the user experience. The system integration enables Baker Hughes to efficiently scale its production output while minimizing investments in the support structure.
Also, the end-to-end system facilitates the monitoring of key performance indicators through the production workflow. For build monitoring alone, Baker Hughes realized a 98% reduction in active monitoring engineering time, saving 136 engineering hours per printer annually. Root cause analysis has also decreased 98% through Oqton’s automated reporting. Additionally, Baker Hughes realized an 18% reduction in costs associated with scrap due to real-time actionable alerts during part production.
What Is Oqton Manufacturing OS?
Oqton Manufacturing OS was developed to help customers move from prototyping to a repeatable, high-quality production AM process, with full traceability from raw material through finished component, which is essential for high-reliability applications. Oqton Manufacturing OS manages, optimizes, automates, monitors and traces actions and data to increase throughput, scale production and maximize operational efficiency.
The system enables on-demand AM for regulated markets, improves efficiency and enables scalability leveraging power of real-time monitoring. It also provides full factory-floor workflow integration, automation, control and optimization from part design through inspection and certification. It facilitates, expedites order management process for end-to-end record control and traceability.
The solution is designed to address all key aspects of an end-to-end manufacturing workflow, including:
- Order management via a customer and supplier portal for order intake, capacity and demand planning, and quoting and approvals
- Engineering through 3DXpert enabling design for additive manufacturing (DfAM), build process preparation, simulation, AM inspection and digital rights management for functional efficiency
- Digital warehousing that provides user access segregation control with multifacility workflow management.
- An AM-based manufacturing execution system (MES) that enables operational excellence, management and traceability.
- Production monitoring based on internally developed IP using analytic-driven and deep learning capabilities to detect and alert anomalies in real time.
Real-World Impact for Regulated Industrial Environments
“We are pleased to achieve deployment of this solution with our strategic partner, Baker Hughes,” says Reji Puthenveetil, EVP, additive solutions and chief commercial officer, 3D Systems. “Oqton Manufacturing OS’ holistic approach to manufacturing, alongside Baker Hughes’ expertise in production for regulated industrial environments, has enabled us to demonstrate the real-world impact of this unique solution. Following this key demonstration of Manufacturing OS’ ability to drive efficiencies, increase automation and achieve savings in complex industrial environments, we are looking forward to its continued adoption.”
The Manufacturing OS production software improves efficiency through the automation of the complex process, from order requirements, design revision controls, qualified build setups, traceability and reporting. “It provides the tools to industrialize at scale the manufacturing without compromising the quality assurance of its production,” says Jim Apostolides, senior vice president, enterprise operational excellence, Baker Hughes.
According to Spherical Insights, the global manufacturing operations management software market was valued at $16.4 billion in 2022 and is expected to reach $52.7 billion by 2032.
3D Systems says the Oqton Manufacturing OS enables the next generation of manufacturing automation connecting existing applications and machines across facilities in multiple sites to enable collaboration. When combined with AM solutions, it reduces time to final high-quality, reliable and high-performance components designed to meet or exceed design criteria. The experts within Oqton, and more broadly 3D Systems, are said to have extensive experience helping customers in regulated industries meet these goals through tailored solutions. As a result, manufacturers can produce parts more efficiently while reducing costs.
Related Content
3D Printed Seal for Geothermal Power: The Cool Parts Show #73
Plugging a hole is a complex challenge when it’s a well for geothermal power. Additive manufacturing produces a shape-changing stainless steel seal for high-temperature applications deep underground.
Read More3D Printed Reactor Core Makes Solar Fuel Production More Efficient
The solar reactor uses water and CO2 from the air and sunlight as the energy source to produce carbon-neutral liquid fuels, for example, solar kerosene for aviation.
Read More3D Printed Heat Exchanger Illustrates Siemens' CATCH and Release Approach
Solutions for energy efficiency, sustainability, part repair and more are developing at Siemens’ Charlotte Advanced Technology Collaboration Hub (CATCH) in North Carolina.
Read MoreVideo: AM for Repair of Large Shafts
Wind power shafts that might once have been scrapped are now returned to service. See the robotic directed energy deposition (DED) and shaft preheating system developed by Ikergune, Izadi and Talens.
Read MoreRead Next
Alquist 3D Looks Toward a Carbon-Sequestering Future with 3D Printed Infrastructure
The Colorado startup aims to reduce the carbon footprint of new buildings, homes and city infrastructure with robotic 3D printing and a specialized geopolymer material.
Read More3D Printed Polymer EOAT Increases Safety of Cobots
Contract manufacturer Anubis 3D applies polymer 3D printing processes to manufacture cobot tooling that is lightweight, smooth and safer for human interaction.
Read MoreBike Manufacturer Uses Additive Manufacturing to Create Lighter, More Complex, Customized Parts
Titanium bike frame manufacturer Hanglun Technology mixes precision casting with 3D printing to create bikes that offer increased speed and reduced turbulence during long-distance rides, offering a smoother, faster and more efficient cycling experience.
Read More