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There’s hardly anything better than exploring new, exciting places and roads by bike. That’s exactly what the BELL NOMAD MIPS is designed for. Featuring a lightweight IN-MOLD construction and an ERGO FIT adjustment system, it provides incredibly high comfort whatever the distance. Thanks to a trail-specific design with a deep rear and MIPS technology, you can even ride challenging singletracks with confidence. So what are you waiting for? With the Nomad, there are no more excuses.
• Robust FUSION IN-MOLD POLYCARBONATE SHELL
• 15 vents
• Moisture-wicking liner pads
• Adjustable visor
• Adjustable NO-TWIST TRI-GLIDES straps
• ERGO FIT adjustment system
• MIPS system reduces rotational forces
Weight: approx. 353 g (size UA)
FUSION IN-MOLD POLYCARBONATE SHELL:
The EPS foam is injected directly into the thin micro shell while it is still in the mould, instead of shaping it separately and sticking it on.
The strap system is easy to adjust, keeps the straps flat and prevents twisting – which helps save some energy when riding in the wind.
The special fitting system for one size models is easy to adjust with one hand and ensures a perfect fit of the helmet.
WHAT IS MIPS?
MIPS (Multi-Directional Impact Protection System) is a slip-plane system within the helmet. It is designed to rotate inside the helmet to slow down or reduce the impact energy acting on the brain, which helps reduce head injuries caused by rotational impacts.
WHY IS MIPS IMPORTANT?
When a head rotates quickly and comes to a sudden stop, the rotational acceleration can cause the brain tissue to experience high levels of strain. This stretching of the tissue caused by these motions may result in various types of brain injury. MIPS is designed with the intent to address rotational acceleration from impact.
HOW DOES IT WORK?
MIPS uses a slip-plane system that moves inside the helmet, imitating the brain’s own protection system. This layer is designed to rotate inside the helmet with the intent to potentially slow or reduce the amount of energy transferred to or from the head. Science tells us that if we can reduce the strains associated with rotational acceleration, we might reduce the risk and severity of brain injury.
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