NASA works in collaboration with Smart Tire Company to unveil the Metl tire, which is a progressive new approach to bicycle tires. It is a shape-memory design with no air used, inspired by the same themes that are applied to planetary rovers tire and its construction.
The Metl aims to create a unique cycling experience as riders will not need to rely on air pressure. The design team from NiTinol, which is a shape-memory allowed at the core of the tire. NiTinol is a nickel-titanium allow that allows the tire to adapt to the changes of pressure whilst seamlessly returning to its original shape for a smooth ride -- the Metls have clear sidewalls and a replaceable tread.
Space-Inspired Airless Tires
NASA and Smart Tire Company Join on the Progressive Metl Tires
Trend Themes
1. Shape-memory Tires - The collaboration between NASA and Smart Tire Company brings a shape-memory design approach to bicycle tires, eliminating the need for air and providing a unique cycling experience.
2. Airless Tire Technology - Inspired by planetary rover tires, the Metl tire uses no air and instead features a progressive construction that adapts to changes in pressure, offering a smooth ride without the reliance on air pressure.
3. Nitinol Innovation - The Metl tire incorporates NiTinol, a nickel-titanium alloy with shape-memory properties that allow it to seamlessly return to its original shape, opening up opportunities for innovative tire design.
Industry Implications
1. Cycling Industry - The airless and shape-memory design of Metl tires represents a disruptive innovation in the cycling industry, creating a unique cycling experience that eliminates the reliance on air pressure.
2. Automotive Industry - The airless tire technology showcased in the Metl tire presents a disruptive innovation opportunity for the automotive industry, offering a durable and adaptable tire design that could enhance vehicle performance and safety.
3. Materials Science Industry - The use of NiTinol, a nickel-titanium alloy with shape-memory properties, in the construction of Metl tires opens up innovative possibilities in the materials science industry, paving the way for the development of advanced shape-memory materials for various applications.