Dan’s Biz Bookshelf: ‘Abundance: How We Build a Better Future’
Trouble in Your Tank: In Complex Systems, Design Rules Aren’t Optional
It’s Only Common Sense: The Phone Is Still Your Competitive Advantage
Engineers Demonstrate Key Step in Robotic Disassembly
September 2, 2019 | University of BirminghamEstimated reading time: 1 minute
Engineers at the University of Birmingham have successfully designed a robotic system that can perform a key task in disassembling component parts.
The research is an important advance for manufacturers looking for more efficient ways to build products from a combination of reused, repaired and new parts.
Known as remanufacturing, this process is becoming increasingly commonplace in manufacturing and is attractive because it can use as little as 10% of the energy and raw materials required to build the product from scratch. It can also reduce CO2 emissions by more than 80%.
A key part of the process is the ability to disassemble the ‘core’, the returned product. It’s a challenge because of the huge variety within these products, with lots of unknowns in the size, shape and condition of components.
The new study, published in Royal Society Open Science, demonstrates a process for removing pins from holes – components like these are extremely common in a wide variety of machines, such as internal combustion engines. The research is the first to investigate this operation in depth and identify the key parameters required to automate the process.
Yongquan Zhang, of the Autonomous Remanufacturing Laboratory, in the Department of Mechanical Engineeringat the University of Birmingham is lead author on the paper. “Processes currently used for automating disassembly are fairly ad hoc,” he explained. “We need to be able to design robust systems that can handle the uncertainties that are inherent in disassembly processes – and to do that, we need a better fundamental understanding of disassembly.”
“The results of this study demonstrate how that fundamental understanding can be used to design robotic systems for reliably performing one common disassembly operation.”
Share on:
Subscribe
Stay ahead of the technologies shaping the future of electronics with our latest newsletter, Advanced Electronics Packaging Digest. Get expert insights on advanced packaging, materials, and system-level innovation, delivered straight to your inbox.
Subscribe now to stay informed, competitive, and connected.
Suggested Items
Dragonfly Energy Secures Additional Nevada Tech Hub Funding
05/07/2026 | Globe NewswireDragonfly Energy Holdings Corp., an industry leader in energy storage and maker of Battle Born Batteries®, announced it has been selected for a second consecutive round of funding through the Nevada Tech Hub.
Designing Without a Rulebook: When Engineering Becomes Innovation
05/05/2026 | Stephen V. Chavez, Siemens EDAWhat if the very rules that made you successful as a PCB designer are the ones now holding you back? This reminds me of walking the floor and attending sessions at both PCB West 2025 and APEX EXPO 2026, where one common theme stood out: More designs with traditional PCB “best practices” simply don’t apply. It’s not because they’re wrong, but because the problems we’re solving have fundamentally changed. In some cases, those best practices can actually limit performance. This is where PCB design moves beyond optimization and into something far more challenging: designing without a rulebook.
Custom LIDAR Optics Support Mission-Critical Performance
05/05/2026 | PRNewswireMeller Optics, Inc. has introduced custom fabricated LIDAR optics that can be engineered for specific UV to IR transmission requirements featured in airborne, ground, and maritime defense systems.
Trouble in Your Tank: In Complex Systems, Design Rules Aren’t Optional
05/06/2026 | Michael Carano -- Column: Trouble in Your TankThere is no question that the electronics industry, especially in circuit board design and fabrication, advanced packaging, and innovation throughout the value chain, has seen a significant transformation, whether it be in materials, system architecture, HDI and ultra HDI, semiconductors, or chiplets. AI and high-performance computing (HPC) are driving change across several fronts, including material properties, assembly techniques (think hybrid bonding), and power management.
EMI Strengthens Test Capability with Acculogic Flying Probe System
05/04/2026 | Express Manufacturing, Inc.Express Manufacturing, Inc. (EMI), a global electronics manufacturing services (EMS) provider, has added the Acculogic Scorpion 980E Flying Probe Test System to its inspection and test operations, giving the company greater flexibility in how it validates and supports today’s increasingly complex electronics.