Image of TSG Task 2.0 D3O Knee Guards
OPTIONS WITH THIS ICON ARE AVAILABLE FOR CHRISTMAS DELIVERY
Black S Dispatched in 1-2 days ID: 80352-262858
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What are the delivery costs?

We offer Free UK Delivery on all orders.

Including: Channel Islands, Isle of Man, Isle of Wight, Northern Ireland, Scottish Highlands and Scottish Islands.

Standard delivery is normally 2 - 5 working days.

International delivery costs and delivery times vary for different countries. Please see here for more information.

Christmas delivery

For guaranteed Christmas delivery please order bikes before 11am, Tuesday 20th December and all other items before 11am, Wednesday 21st December. Guaranteed Christmas delivery applies to all items with the icon, please choose your option/size to see if the specific item you are after qualifies for Christmas delivery.

This 2.0 update of our Kneeguard Task D3O comes with a longer greave to cover more of your vulnerable shins. The extra-long, full coverage kneepad is made of intelligent D3O for advanced impact protection. A pierce-proof insert keeps sharp objects like sharp edged rocks, splintered branches or screw tips from penetrating the foam. Converts easily from knee/shin to knee-only by detaching the shin board.

Features:

  • Absorption: D3O.
  • Fit: Pre-Shaped Design, Horseshoe Shape, Top 360° Strap.
  • Cap: Removable Pierce-Proof Insert; Detachable Shin Board.
  • Construction: Pull-Over Design.
  • Additional features:Anti-Slide NBR, Lateral Padding, Easy-Slide Cover.
  • Certification: CE

WHY D3O?

""The new generation of D3O material has exceeded our expectations, superior as it is in shock absorption and tensile strength to even our own VEP foam (+33%). Given our resolve to continually offer the best protection within the action sports market, a partnership with D3O is an organic, logical conclusion"". notes Ruedi Herger, CEO of TSG.

HOW DOES D3O WORK?

D3O is a soft and flexible shock absorbing foam which boasts unique molecular properties. Under ordinary conditions its molecules flow freely, but upon impact, they lock together to produce an instantaneously stiffer foam which in turn absorbs more impact energy and greatly reduces force transmission.