There appears to be a growing consensus that vehicle weight must be reduced 10 to 15 percent to achieve the government’s 54.5 mpg fuel economy standard, effective by the 2025 model year.
This month, research firm Ducker Worldwide of suburban
A typical vehicle weighs about 3,625 pounds, which means automakers will seek to eliminate 360 to 540 pounds, if industry estimates are correct.
At least one automaker, Ford Motor Co., has publicly vowed to reduce the weight of new models introduced through 2020 by 250 to 750 pounds per vehicle.
Materials matter
Most likely, automakers will achieve this by relying heavily on lighter materials -- such as aluminum, magnesium, composites and carbon fiber -- along with advanced high-strength steel.
Given the high cost of carbon fiber, automakers generally will make greatest use of aluminum and advanced high-strength steel, said Richard Schultz, a Ducker managing director.
“The real loser will be ‘mild’ steel, but so what?” Schultz said. “The steel mills see this conversion happening, so they are replacing their equipment.”
This conversion to lighter materials will occur step by step, as automakers redesign hundreds of parts.
Most companies prefer an incremental approach rather than clean-sheet experiments such as Jaguar’s primarily aluminum XJ sedan or the Audi A8’s aluminum spaceframe, said CAR President Jay Baron.
‘Risk averse’
Automakers are “risk averse, because making a mistake is so costly,” Baron said.
But some ambitious experiments have been launched. The U.S. Department of Energy has funded a $10 million effort by Chrysler Groupto design a seven-passenger minivan that weighs half as much as a typical people mover.
Chrysler declined to discuss the project, but industry sources say the designers will make use of magnesium, aluminum and composite components.
In 2009, Ford said it would reduce the weight of each new model over the next decade by 250 to 750 pounds, depending on vehicle size.
Its new models are starting to show the results of that strategy. The new Explorer, for example, features an aluminum hood that is 17 pounds lighter than a steel one. And a magnesium seat frame for the Explorer’s third row saved 10 pounds.
Another example: the Lincoln MKT crossover has a liftgate made with a magnesium inner panel plus an aluminum outer panel. The magnesium-aluminum liftgate weighs 87.5 pounds, vs. 109.5 pounds for a standard steel one.
The liftgate, developed jointly by Ford and Meridian Lightweight Technologies Inc. of
Consumer resistance
Weight reductions such as these arguably are invisible to the motorist, who may not care whether his hood is aluminum or steel. But other efforts to cut weight may encounter consumer resistance.
For example, Magna International Inc., of
Its thin seat back saves weight, and thinner contours allow rear-seat passengers more legroom. To hold costs down, Magna used high-strength steel -- twice as strong as conventional steel -- in the frame rather than pricier materials such as carbon fiber or magnesium.
But Magna doesn’t have any contracts yet. Why not? Consumers perceive the seat to be less comfortable, admits Jim Rudberg, a seating engineer for Magna.
Uncomfortable looks
The supplier’s own tests conclude that the new seat is just as comfortable. But participants in Magna’s customer clinics insisted that the seats didn’t look comfortable.
This problem first popped up a few years ago, when Magna developed the fold-down seats for Chrysler’s minivans with
What will it cost?
While 10-year cost projections necessarily involve guesswork, industry analysts aren’t that far apart. The Ducker report puts the cost of a 10 percent weight reduction at $500 per vehicle.
The CAR study estimates that a 15 percent weight reduction would cost $1,156 per vehicle.
Such estimates assume that automakers will gradually switch to new materials rather than make a one-time change to slash weight.
But some major innovations are in the works, too. At the
In addition, Audi AG is unveiling a redesigned A2 with an aluminum body and spaceframe.
The
Likewise, rumors are circulating that an American automaker may develop a sports car with a carbon fiber monocoque, or unibody.
If successful, these projects could speed the pace of innovation. But automakers are unlikely to adopt exotic materials for mass market models regardless of cost.
If the price of a new part is more than 5 to 10 percent higher than the old part, said Magna’s Rudberg: “We won’t even bother.”