BAE Systems' Factory of the Future
July 13, 2020 | BAE SystemsEstimated reading time: 2 minutes
A first-of-its-kind industry 4.0 factory is applying game-changing digital technologies to advance manufacturing on the UK’s next generation combat aircraft system, Tempest.
The new facility at BAE Systems’ site in Warton, Lancashire, is the result of a multi-million pound investment and collaboration with more than 40 blue chip and SME companies along with academic institutions. Harnessing the best of UK innovation, the Company has developed a digitally connected, intelligent factory for future military aircraft production.
Bringing together advanced manufacturing technologies, the factory will transform engineering processes. Automated robots, virtual and augmented reality will increase speed, precision and efficiencies, as well as reduce the costs associated with the manufacture of complex military aircraft structures.
The factory also demonstrates a new approach to the way humans and machines can operate together. Cobotic and flexible robotic technologies remove the need for heavy, fixed, long-lead tooling and can quickly switch from the manufacture of one item or platform to another. Intelligent machines and off-the-shelf robotic technology from the automotive industry have been modified to operate at the precise tolerances required for military aircraft, which are less than a third the width of a human hair on some of our programmes.
Such technology drives greater productivity by allowing operators to focus on more highly-skilled and strategic tasks and production managers to oversee operations from a fully digitised, virtual office.
The new facility underpins efforts of the UK-led Tempest programme to meet the UK’s ambition to remain at the forefront of the Combat Air sector by delivering more cost-effectively and in half the time of previous programmes.
Dave Holmes, Manufacturing Director for BAE Systems Air, said:
“We’ve collaborated with the best of UK industry and academia to develop a cutting-edge facility that combines current and emerging technologies, ensuring the UK remains at the forefront of combat air technology development.
“Driving our manufacturing capabilities forward as we prepare for the fourth Industrial Revolution, will sustain and develop critical skillsets and ensure we can continue to deliver military capability to address future threats, whilst improving productivity and delivering value for money for our customers.”
Technologies inside the factory are already delivering benefits. The intelligent workstation, developed in collaboration with The University of Sheffield’s Advanced Manufacturing Research Centre (AMRC) and Fairfield Control Systems, is in use on the Typhoon production line. It uses a system which recognises operators and automatically delivers tailored instructions using ‘pick by light’ technologies. In addition, additive manufacturing technologies are being used in the production of Typhoon aircraft parts and assemblies.
Suggested Items
Real Time with… IPC APEX EXPO 2024: Tools, Training, and Trends in Manufacturing Engineering
04/25/2024 | Real Time with...IPC APEX EXPOGuest Editor Kelly Dack and Product Specialist Erik Bateham of Polar Instruments discuss Polar's latest technology, including their role in aiding manufacturing engineers. They highlight the advanced capabilities of Polar's tools and the critical role of signal integrity analysis, as well as the importance of accurate modeling in board manufacturing. Polar's unique training approach and demonstration contact details are also explored.
TTM Celebrates the Grand Opening of Its First Manufacturing Facility in Penang
04/25/2024 | TTM Technologies, Inc.TTM Technologies, Inc., a leading global manufacturer of technology solutions including mission systems, radio frequency (RF) components and RF microwave/microelectronic assemblies, and quick-turn and technologically advanced printed circuit boards (PCBs), officially opened its first manufacturing plant in Penang, Malaysia with an investment of USD200 million (approximately RM958 million).
Listen Up! The Intricacies of PCB Drilling Detailed in New Podcast Episode
04/25/2024 | I-Connect007In episode 5 of the podcast series, On the Line With: Designing for Reality, Nolan Johnson and Matt Stevenson continue down the manufacturing process, this time focusing on the post-lamination drilling process for PCBs. Matt and Nolan delve into the intricacies of the PCB drilling process, highlighting the importance of hole quality, drill parameters, and design optimization to ensure smooth manufacturing. The conversation covers topics such as drill bit sizes, aspect ratios, vias, challenges in drilling, and ways to enhance efficiency in the drilling department.
Elevating PCB Design Engineering With IPC Programs
04/24/2024 | Cory Blaylock, IPCIn a monumental stride for the electronics manufacturing industry, IPC has successfully championed the recognition of the PCB Design Engineer as an official occupation by the U.S. Department of Labor (DOL). This pivotal achievement not only underscores the critical role of PCB design engineers within the technology landscape, but also marks the beginning of a transformative journey toward nurturing a robust, skilled workforce ready to propel our industry into the future.
Fujitsu, METRON Collaborate to Drive ESG Success
04/24/2024 | JCN NewswireFujitsu Limited and METRON SAS, a French cleantech company specializing in energy management solutions for industrial decarbonization, today announced a strategic initiative to contribute to the realization of carbon neutrality in the manufacturing industry.