Automotive Industry Speaks Out on Fuel Economy Regulations in WardsAuto and Dupont Automotive Survey
Drive to Reduce Dependence on Fossil Fuels Demands Materials Innovation
Traverse City, MI (PRWEB) August 02, 2011
The auto industry’s current materials portfolio will need to be augmented to meet new 2025 fuel economy standards, according to a recent WardsAuto and DuPont Automotive survey in late July. Respondents also said materials used in power train vehicle systems will change the most.
More than 1,000 subscribers to industry-leading publication WardsAuto responded to a survey designed to identify challenges and trade-offs associated with meeting 2025 CAFE (corporate average fuel economy) standards. Results of the survey, commissioned by DuPont and performed by Paramount Research, Coralville, Iowa, were released during the Center for Automotive Research’s Management Briefing Seminar this week.
The WardsAuto, DuPont survey was conducted just before the Obama administration’s originally proposed 2025 fleet average of 56.2 mpg (4.1 L/100 km) was negotiated to 54.5 mpg (4.3 L/100 km).
“Clearly CAFE regulations have confronted the industry, but they’ve also driven focus around technology needs, material demands and cost issues,” said David Glasscock, DuPont global automotive technology director. “While the CAFE standard is a little lower than proposed, it’s significantly higher than where we are today. Advanced materials, alternative propulsion systems and new technologies must be developed quickly and cost effectively.”
Only 5 percent of the vehicle design and engineers polled said they are “very confident” that currently available materials will help them meet proposed CAFE standards. Nearly half the respondents say the greatest change in materials will be in power train systems, noting that advanced propulsion systems ““ from downsized engines to hybrid and electric vehicle systems and batteries ““ will drive new material requirements.
Respondents identified the need for higher strength, lighter metals including aluminum, magnesium; more cost-effective advanced composites for structural components that can significantly reduce weight and high-heat resistant, lightweight materials to withstand higher combustion pressures and temperatures.
“This is a defining moment ““ not just for materials, but for the industry,” said Glasscock. “And it’s one that breaks the silos of the value chain and is inclusive of the global marketplace.”
DuPont recently opened automotive collaboration centers in Seoul, Korea, Pune, India and Shanghai, China, connecting them globally with facilities in Meyrin, Geneva; Wuppertal, Germany; Nagoya, Japan and several in the Americas to strengthen the industry’s ability to collaborate on ways to reduce dependence of fossil fuel
In 2010, DuPont launched more than 1,700 new products and invested 22 percent of its $1.7 billion R&D budget on reducing dependence on fossil fuels, new chemistry and materials.
“The combination of collaboration centers and science-powered innovation shows we are ready ““ and looking forward ““ to the challenges,” said Glasscock.
In addition to materials challenges, the WardsAuto and DuPont survey explores how new CAFE standards will impact vehicle manufacturing and offers a ranking of the top challenges consuming industry resources.
DuPont is a science-based products and services company. Founded in 1802, DuPont puts science to work by creating sustainable solutions essential to a better, safer, healthier life for people everywhere. Operating in more than 90 countries, DuPont offers a wide range of innovative products and services for markets including agriculture and food; building and construction; communications; and transportation.
The DuPont Oval Logo, DuPontÃ¢“¢, EnergainÃ¢“¢, Nomex®, Kevlar® and Zytel® are registered trademarks or trademarks of DuPont or its affiliates.
High-resolution charts are available under the “news and events” link at automotive.dupont.com and plastics.dupont.com.
Click on these hyperlinks for information about how DuPontÃ¢“¢ EnergainÃ¢“¢ Separators for high-performance lithium ion batteries can be used to boost power density in battery systems, and for ideas to reduce vehicle weight in high-heat, chemically aggressive environments using DuPontÃ¢“¢ Nomex®, DuPontÃ¢“¢ Kevlar®, and DuPontÃ¢“¢ Zytel® PLUS nylon.
For the original version on PRWeb visit: http://www.prweb.com/releases/prweb2011/8/prweb8688563.htm