AAA Illuminates the Dangers of Driving with Cloudy Headlights
Deteriorated headlights produce 80 percent less light than when new
Hamilton, NJ, December 11, 2018 – New research from AAA reveals that clouded or yellowed headlights generate only 20 percent of the amount of light that new headlights do, leading to dangerous nighttime driving conditions. This decrease is caused by sunlight damage to protective plastic coatings, resulting in discoloration that considerably diminishes the headlight’s ability to provide adequate light on dark roadways.
With 50 percent of crashes occurring at night, AAA Mid-Atlantic urges drivers to check their headlights for signs of deterioration and invest in new headlights or, at a minimum, a low-cost service to boost the safety of driving after dark.
“Walk through any parking lot and it is obvious that deteriorated headlights are a problem for many vehicle owners,” said Rick Santiago, AAA Car Care Center District Director. “Headlights, even when new, don’t produce a sufficient amount of lighting, so any reduction in performance is a real safety issue.”
AAA examined the impact deterioration can have on the amount of light produced by conducting research using an accredited laboratory to test headlights from two popular sedans, approximately 11 years in age. Results from the degraded headlights were measured against new headlights to quantify the amount of light produced for each. All testing was done in accordance with the Federal Motor Vehicle Safety Standard 108 as set forth by the Department of Transportation (DOT).
Research revealed that deteriorated headlights, when used on low beam, provided just 22 percent of the amount of light a new headlight does when operating at full capacity. AAA also examined the effects that replacing or restoring a headlight can have on improving the amount of light produced. Replacing headlights with original equipment manufacturer parts is the most effective method to restore light output back to 100 percent.
Aftermarket parts also performed well, restoring light output between 83 and 90 percent, however these did fail to meet certain requirements for light intensity and were found to be more likely to produce glare for oncoming traffic.
Restoring headlights, while the most cost effective option, offered less of an improvement in light output than replacement. Professional and DIY restoration returned light output back to approximately 70 percent. Both restoration methods, however, produced more glare than is acceptable according DOT criteria.
Compounding the problem of driving with deteriorated headlights is the fact that U.S. headlights have significant shortcomings. Previous AAA research found that halogen headlights fail to safely illuminate unlit roadways at speeds as low as 40 mph, with high beam settings offering only marginal improvements. Even the most advanced headlights tested illuminated just 40 percent of the sight distances that the full light of day provides. By not maintaining headlights, drivers are unknowingly operating in dangerously dim conditions.
“Driving at night with headlights that produce only 20 percent of the light they did when new is a risk drivers shouldn’t take, especially when there are convenient and inexpensive solutions that can dramatically improve lighting performance,” continued Santiago.
Most headlights are made of plastic and exposure to sunlight breaks down the plastic coating, causing discoloration that obscures the amount of light produced. Depending on where and how the vehicle is used, headlights can begin showing signs of deterioration as early as three years to five years.
Unlike batteries or tires, most drivers are not in the habit of routinely inspecting their headlights. AAA Mid-Atlantic suggests drivers check their headlights for changes in appearance such as yellowing or clouding, and if the bulb is difficult to see it is time to have the lenses replaced or restored as soon as possible.
AAA recommends replacement since this method offers the most improvement in the amount of light produced. Both replacement and restoration services are provided by AAA Mid-Atlantic’s Car Care Centers, as well as at many repair shops including numerous AAA Approved Auto Repair facilities.
Headlight assemblies used in testing were for the left (driver’s) side of the vehicle. To quantify headlight performance, AAA contracted an accredited testing laboratory with expertise in automotive headlights and conducted testing according to industry standards. Headlights were tested according to FMVSS-108 standards with no modifications to the headlight assemblies under test or to the test procedures.
The professional headlight restoration systems used a power sanding technique to remove the original protective film from the headlight lens. The resulting scratched surface of the polycarbonate was then polished using increasingly finer grades of sanding discs and a protectant film applied to the entire surface of the headlight lens. Full methodology available in the research report found here.