New metals help battle against rust
WASHINGTON — Victory is at hand in the auto industry's 30-year war against rust.
No more Ford trucks with tailgates that look like decayed teeth. No more Toyota Celicas with see-through wheel wells. No more VWs with college cafeteria trays covering rusted-out floor pans.
"Rust has virtually gone away," declared David Champion, director of automotive testing for Consumers Union, publisher of Consumer Reports, the leading U.S. car-buying guide.
Tell it to Mike Duran, manager of the Fairfax, Va., franchise for Ziebart, once the nation's busiest rustproofer. "If you bought a car in the '70s, you'd have holes in your fenders three years later unless you went straight from the showroom to someone like us," said Duran, 49. Today, his once-numerous competitors are all but extinct, and rust-proofing's down to less than a sixth of his business.
Improved body metals that resist rust are the big reason, plus rust-discouraging vehicle designs and better primers, paints and sealants. They add roughly $200 to new car costs, but enhanced rust resistance, along with improved corrosion-fighting in cooling and exhaust systems, is a big reason cars last longer, said L. Lee Piepho, 59, of Howell, Mich., who was GM's top rust-fighter.
The improvements are helping cars' longevity. In 1977, half of all U.S. passenger cars lasted until they were 10.5 years old, according to National Highway Traffic Safety Administration estimates. Their travel lifetime was 107,000 miles. By 2001 — the latest year tallied — median longevity was 13 years for passenger cars and their travel lifetime was up to 152,000 miles.
For light trucks, the mileage rose from 128,000 to 180,000, according to NHTSA, but longevity remained 14 years, largely because more trucks were being used like cars.
Better rust resistance also slows depreciation and keeps resale values up. That hurts new car sales, Piepho said, but the gleaming beige 2002 GMC pickup in his driveway is a trade-off he's happy to make. "It looks as new as the day I bought it and it has 100,000 miles on it," he said.
Until the 1960s, rust mainly afflicted cars along the Atlantic and Pacific Coasts and the Gulf of Mexico, according to Robert Baboian of Greenville, R.I., a leading auto industry corrosion consultant. Then, increased use of road salt as a winter deicer spread the rust problem throughout snowy areas of North America as far inland as Minnesota and Iowa.
Accompanying the road salt, whose use went from less than a million tons in 1950 to nearly 19 million in 1994, was an increase in acid rain in the Northeast, Ontario and Atlantic Canada. Where salt air, deicer and acid rain combined to eat cars — in places such as St. John's, Newfoundland, Boston, Montreal, as well as snow-buried Buffalo — classic rust buckets such as Fiats, Chevy Vegas and Land Rovers sometimes ran red before they left dealers' lots.
According to Jeffrey Helms, a top rust-fighter at Ford Motor Co., the rust rate in those cities is about five times that in favorable climates, such as in inland Texas.
Cars of the '60s and '70s, made of cold rolled steel and painted without additional corrosion protection, offered token resistance to rust, Baboian said.
To make matters worse, automakers foreign and domestic had begun using thinner steel to reduce weight. A side effect was that it rusted through faster, according to the Auto/Steel Partnership, an alliance based in Southfield, Mich.
To reduce rust, automakers began coating their steel with metals such as aluminum and zinc or their alloys. These metals oxidize, too, but their corrosion products are white, not rust-colored, and less noticeable. When they're present, they oxidize and the steel doesn't.
So automakers turned to zinc alloys or coatings for structural parts and aluminum-steel alloys for body panels, primarily hoods and trunk lids.
Surfaces of the new metals, especially those containing zinc, proved hard to paint, however, and automakers discovered that the paint tended to flake off.
Dunking the car's body in a phosphate bath solved that problem by creating a thin, clean paintable layer of phosphate crystals on the metal's surface.
Design also was a big conern.
Many cars — including early Toyota Corollas, Datsuns and Chevy Caprices — tended to rust fore and aft of their wheels. That was because their tires kicked up stones that chipped paint.
They also kicked up muddy, wet wads of leaves and debris soaked with road salt.
The design solutions, according to Piepho, included eliminating joints and pockets in which the wet wads could collect, adding chip-resistant hielding and providing more holes in the vehicles' frames through which corrosion-fighting wax could be sprayed.
