Description
Giro Fade MIPS helmet Scarlet Peak
Details
The all new ladies Fade helmet is a step above the very popular ERA MIPS helmet and is designed for all-mountain action with feminine charm.
The low-profile design of the Fade MIPS features the proven performance of In-Mold Construction, our In Form Adjustable Fit System and adjustable venting.
The Fade MIPS is also equipped with the Multi-directional Impact Protection System, which can provide more protection in certain impacts.
Specifications
- Construction
- In-Mold Construction, MIPS Equipped
- Fit System
- Roc Loc 5 Fit System, On-The-Fly Vertical Tuning
- Ventilation
- In Form Fit System, Vertical Tuning VENTILATION, Super Cool Vents with Thermostat Control, Stack Ventilation
- Features
- Designed for women, Women’s design ear pad detailing, Compatible with all aftermarket Giro audio systems, Seamless Compatibility with all Giro goggles
- Certification
- ASTM F2040 / CE EN1077
- Giro Fade MIPS helmet Scarlet Peak
MIPS Technology:
THIS IS HOW IT WORKS
In a helmet with MIPS Brain Protection System (BPS) the shell and the liner are separated by a Low Friction Layer.
When a helmet with MIPS Brain Protection System is subjected to an angled impact, the low friction layer allows the helmet to slide relative to the head.
The MIPS BPS is designed to add protection in helmets against the rotational motion.
The rotational motion is a combination of rotational energy (angular velocity) and rotational forces (from angular acceleration) that both affects the brain and increases the risk for minor and severe brain injuries.
MIPS BPS has been scientifically proven to reduce rotational motion when implemented in a helmet by absorbing and redirecting rotational energies and forces transferred to the brain.
STRAIN IN THE BRAIN
The illustration is based on data that was generated using a finite element computer model, based on measurements obtained from nine accelerometers in a Hybrid III crash test dummy head.
The dummy head wearing a helmet was subjected to an angled impact using the MIPS test rig.
The model illustrates strain in the brain from a similar angled impact when the dummy head is wearing a helmet without MIPS and a helmet with MIPS.
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