Professor Andrew Plummer discusses additive manufacturing's potential for the prosthetics industry by University of Bath published on 2020-11-24T17:03:31Z Additive manufacturing allows us to produce parts at a reduced size and weight. For amputees, this means we can create powered prosthetics that are both durable and a more comfortable fit. Working alongside Moog and Blatchford we set out to bring our powered prosthetics research to the commercial market. Professor Andrew Plummer discusses how this could be game-changing for the prosthetics industry. Transcript: "Imagine you got ill, maybe diabetes or had an accident and had to have a leg amputated. In days gone by, you could get a wooden leg, but that wasn't a great substitute particularly for above the knee amputees. Nowadays you might get a leg made from carbon fibre or light alloys, and subtly designed joints incorporating springs and shock absorbers to give a fairly natural and pleasant walking experience. They might even be computer-controlled. But you'll still be a long way from the league of a bionic man or bionic woman. Walking up slopes or stairs will still be slow and tiring because your new leg will have no muscle power. Your trailing leg really needs to push off every time it leaves the ground to propel you up and along, but building in muscle power into prosthetic legs is a formidable engineering challenge. Using existing technology, the leg ends up being too bulky, too heavy or using too much energy, not to mention the challenge of controlling the leg to automatically synchronise with your movements. I'm Andrew Plummer, Professor in the mechanical engineering department, so I lead the Power Transmission Motion Control research centre here at Bath and we have considerable experience in hydraulic actuation, this provides very high-power density by using pressurised oil, which means we can generate significant muscle power in a light and compact leg. And using additive manufacture we can further integrate these powerful hydraulic actuation components into incredibly light titanium prosthetic joints. At Bath we have been fortunate in having world-leading industrial partners. We were working with Moog and Renishaw on additive manufacture for hydraulic components and independently with Blatchford on smart powered prosthetics. Bringing the two strands of work together was, as they say, 'a no brainer'. I'm convinced this is a game-changer for future prosthetics technology." Genre Learning