For those on the go, the all-new Boa Lacing System is the fastest and easiest way to tie your shoes.
The newest technology from Boa has been adopted by ASICS and New Balance (on the already released ASICS Gel-FujiRado and the soon to be launched New Balance Fuel Core Sonic). The laces are made with what is purported to be the strongest fiber in the world, Dyneema. A single-handed quick dial system locks your laces in place and releases tension when its time. Each click of the dial tightens the laces by 1 mm. This technology is already being used on climbing gear, snowboarding boots and camping products so it is only natural that the Boa Lacing System be adapted for use on shoes.
Quick Lacing Systems
The Boa Lacing System Uses a Dial for Quick Tightening and Releasing
Trend Themes
1. Quick Lacing Systems - The rise of quick and easy lacing systems for shoes and other products is disrupting traditional lacing methods.
2. Dyneema Fiber - The use of the world's strongest fiber is disrupting traditional shoe lace material and has the potential to revolutionize other industries.
3. Single-handed Dial Control - The innovation of a single-handed dial control for tightening and releasing laces is disrupting traditional two-handed methods and has the potential to be used in other industries for any product requiring straps or fasteners.
Industry Implications
1. Footwear - The footwear industry is being disrupted by the adoption of quick lacing systems, presenting an opportunity for brands to offer innovative lacing alternatives in their products.
2. Outdoor Equipment - The use of Dyneema fiber in quick lacing systems for snowboarding and camping products presents an opportunity for the outdoor equipment industry to take advantage of the strength and durability of this innovative material.
3. Medical Devices - The single-handed dial control technology used in quick lacing systems can be applied to medical devices needing straps or fasteners, presenting an opportunity for the medical industry to adopt quick and easy fastening mechanisms.