Artificial knee and hip replacement surgeries are common today, with the majority of the implants using a plastic-on-metal joint interface. Unfortunately, plastic-on-metal joints are only temporary solutions, as most implants last 10-15 years before needing a second surgery to replace the worn device. This E-Team, incorporated as Magnetic Ventures, is looking to help joint replacements last longer with the Magnetically Assisted Artificial Joint, a patent-pending technology that lowers the contact stress at the joint interface through the use of magnets. The technology operates on a similar conceptual basis as MagLev trains, which utilize electromagnetic forces to lower friction between the train and track; as a MagLev track experiences a constant load from the train, the magnetic field needed to lift the train is constant. The team’s device uses an elastic material to control the distance between magnets in the joints and adjust the magnetic force; as the force in the joint increases, the magnets are pushed closer together, lowering the interface force and decreasing friction in the joint. The team has written a business plan, won several local business plan competitions, and developed and patented a prototype. With NCIIA funding they will test biocompatible elastic materials that would be used in their device, analyze various arrangements of magnets, and develop their network.