When you go shopping for a new engine for your Late Model, you don't simply pick one off the engine builder's floor because he says "they're all pretty much the same, anyhow." No, before you write the check, you want to see the dyno sheet, compare the numbers, one engine against the next, and find out which one will do the best job for you based on where and how you race.
Yet, when it comes to buying a racing helmet-what may be the most important piece of safety gear-drivers often look at only the price tag when deciding which one best protects them. To paraphrase motorcycle daredevil Evel Knievel, if you have a $25 head, it's OK to wear a $25 helmet.
Many tracks and racing organizations compound the helmet-buying dilemma by not having, or not enforcing, helmet standards. Show up with just about anything that covers your head and you can climb into a Street Stock and sit only 2 inches away from a steel rollbar.
Safety Ratings
It's hard to tell a good helmet from a poor one just by looking at it. And helmets "age" over a period of years, so one that was state of the art a decade ago won't do the job it did when new, and it doesn't begin to compare to what is on the market today.
Both the federal Department of Transportation and the private Snell Memorial Foundation set standards for helmets. In the DOT's case, a manufacturer attests that its helmets meet the standards. It is something of an honor system. The Snell standards are much tougher than the DOT's, which is the reason they are the requirement in many racing organizations.
A racing helmet goes through...
A racing helmet goes through testing at the Snell Memorial Foundation.
In its 2002 rule book, NASCAR requires Snell-certified helmets. They have to meet either Snell's 1995 or 2000 criteria.
Snell set its first standards in 1959 and used them as a carrot for manufacturers to improve their products.
"We picked the top 10 percent of the helmets based on their performance and used that as the standard," explains Edward Becker, a mechanical engineer who is the foundation's executive administrator. "It made the other 90 percent scramble to try to match the best ones."
From 1959 to 1975, improvements to helmet design and performance were rapid, Becker says. "At that point we got to the limits of what could be done and still have a helmet that people could wear to drive a car. Now the changes are much more incremental. The best helmets from 1995 could probably meet Snell's 2000 standards."
To obtain a Snell certification on any helmet line, the manufacturer pays a testing fee of about $1,200 to the California research center and must submit five samples to be tested. The certification process begins by cutting one helmet into pieces to examine how it is made. The technicians look at material thickness and strength and how the inner liner is manufactured.
Snell technicians use everything...
Snell technicians use everything from guns to blowtorches to test a helmet's effectiveness under extreme conditions.
A helmet works by taking energy from a crash and first dissipating it over as large an area as possible to reduce the force at the point of impact. The energy is then diminished further before it gets to the head by the impact-absorbing material that forms the inner liner.
During testing, helmets are mounted on machines that drop them against pieces of metal that resemble the shapes of things normally found in a race car-the rollcage, door opening, etc.-to see how the helmets hold up. The testing equipment also records how much of the impact is transferred to the sensor-loaded "head" inside the helmets. Another machine puts a load on the chin strap to see if it will fail under a simulated racing crash. Yet another test determines if the helmet can slip off the driver's head in a crash (Yes, it can happen if the helmet isn't the right size or the chin strap isn't tightened properly).