Bell invents the protection for breaking boundaries. Their purpose is to enable awesomeness. For 60 years they've answered that challenge and spawned many industry firsts. Bell helmets set the standards of the day. They were intended to help Bell's consumer live, drive, ride, and thrive.
Lightweight composite "Tri-Matrix" shell.
Velocity Flow Ventilation system for maximum cooling.
Fully adjustable Flying Bridge Visor with air intake vents.
Removable / washable X-Static XT2 silver liner.
Extended Wear interior.
Exclusive Magnefusion Emergency Removal System (MERS) cheekpads.
QuickFlip visor screws for easy adjustment, even with gloves on.
Fully ventilated EPS-lined chinbar.
Integrated vented roost guard.
New and approved Magnefusion magnetic strap keeper.
Padded chin strap with D-ring closure.
Industry-leading five-year warranty.
Weight: 1450 grams.
Certification: DOT and SNELL.
Time Is Everything - For the past 60 years and counting, Bell engineers have researched the forces involved in crashes across a wide range of scenarios. Recent findings have concluded that brain injury received during an angular impact is much more severe, due to higher strain on the brain's tissue. MIPS addresses this strain by allowing the head to slide independent of the helmet for a few milliseconds. This critical moment of time helps to reduce the violence of the brain inside the skull, and can significantly reduce the risk of traumatic brain injury.
How It Works - MIPS uses a slip-plane system that moves inside the helmet, mimicking 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 Bell can reduce the strains associated with rotational acceleration, they might reduce the risk and severity of brain injury.
Why It's 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. The stretching of the tissue that can be caused by these motions can result in various types of brain injury. Bell believes that helmets equipped with MIPS technology can provide an additional measure of protection in certain impacts.
The Minds Behind MIPS - In 1996, Swedish neurosurgeon Hans von Holst began to study helmet construction. He partnered with Peter Halldin, researcher at the Royal Institute of Technology, with a goal to contribute to the evolution of helmet technology. As a result, the company, MIPS AB was founded in 2001 by Hans, Peter and three other specialists in the biomechanical field from the Royal Institute of Technology (KTH) in Stockholm, Sweden. The company has extensive technological and medical expertise focused on head injuries. They also conduct studies involving injury prediction and the simulation of head and neck injuries using advanced data methods. MIPS AB has extensive and profound knowledge concerning head and neck injuries, a result of 20 years' experience in the area.