MET Trenta MIPS Helmet Matte Black Gloss
Add the code BLACK6 before completing your order and get a -6% EXTRA on this item.
*Coupon valid only TODAY.
Met Trenta MIPS Helmet Matte Black Gloss
High performance and low weight for a high performance helmet. The MET Trenta helmet is the most advanced road helmet Met has ever made. It is a vital companion for serious cyclists with a competitive spirit, offering unprecedented levels of performance.
Met Trenta MIPS Helmet Matte Black Gloss
The MET Trenta MIPS helmet has all the qualities of the version without MIPS but with the addition of this low friction layer located inside the helmet, which has the ability to rotate relative to the helmet in the event of an impact, reducing shock violence and prevent brain damage.
Features:
- In-mold polycarbonate shell with EPS MIPS
- Safe-T Orbital fit system
- Compatible with long hair
- Hand washable Air Mesh padding
- Air Lite straps
- Adjustable side strap dividers
- Rear reflective elements
- Design: Road, Triathlon
- Weight: 230 gr approx.
- 3K carbon construction
- 19 vents
- Proven drag saved: 7% at 45 km / h
- Designed and manufactured in Italy
- Sizes: S (52-56 cm), M (56, 58 cm), L (58.61 cm)
Technologies:
- MIPS system
Leading technology in flat displacement within the helmet, designed to reduce rotational forces that can result from certain impacts. When a head rotates rapidly and comes to a sudden stop, rotational acceleration can cause high levels of stress in brain tissue. The stretching of the tissue caused by these movements can lead to various types of brain injury. We believe that helmets equipped with MIPS technology can add a higher level of protection against certain types of impacts. MIPS uses a flat displacement system that moves inside the helmet, mimicking the brain's own protection system. This layer is designed to rotate within the helmet in an attempt to potentially slow down or reduce the amount of energy transferred to or from the head. Science tells us that if we can reduce the stress associated with rotational acceleration, we could reduce the risk and severity of brain damage.
Â
Â
Reference: 730342