WASHINGTON, DC – Ford, General Motors and DaimlerChrysler, as members of the United States Council for Automotive Research (USCAR), have signed co-operative research agreements with the US Department of Energy (DOE) to support continued research and development in the areas of lightweight materials and advanced battery technologies for vehicles.
Signing that agreements at the Automotive Hall of Fame were US Department of energy secretary Samuel W Bodman; Mark Chernoby, DaimlerChrysler vice president of Advanced Vehicle Engineering; Dr Gerhard Schmidt, Ford vice president for Research and Advanced Engineering; and Thomas Gottschalk, GM executive vice president of Law and Public Policy and General Counsel.
The agreements, which include DOE funding and industry cost share, represent a total investment potential of $195 million over the next five years. Nearly all of the DOE funding will be passed via subcontracts to suppliers and research institutions through the US Advanced Battery Consortium (USABC) and US Automotive Materials Partnership (USAMP), both consortia of the USCAR.
The $125 million USABC agreement is set for three years with two, one-year continuing options in which the government and industry will share the costs of research. Combined with a $70 million USAMP agreement for lightweight, high-strength materials research, which was initially announced in May, the total joint investment potential in vehicle technologies is $195 million over the next five years.
As part of the USABC agreement, the Department of Energy’s (DOE) FreedomCAR Program will split the cost of research and development for a number of new battery materials and technologies that have the potential to increase energy storage and charge/discharge performance, improve durability and reliability and reduce cost.
The DOE/USCAR partnership has been ongoing for more than 10 years. One of its major accomplishments has been the development of the nickel metal hydride (NiMH) battery technology used in current, commercially available, light-duty hybrid electric vehicles. In addition, USABC is pursuing the development of advanced lithium ion systems. This emerging technology offers the promise of compact, longer-life, high power and high energy batteries for electric, hybrid electric vehicles and fuel cell vehicles.
USABC provides a unique opportunity for battery developers to leverage their resources in combination with those of the automotive industry and the federal government. This pre-competitive cooperation minimizes duplication of effort and risk of failure, and maximizes the benefits to the public of government funds.
Similarly, DOE’s FreedomCAR Program and USAMP will split the cost of research and development for a number of new materials and technologies that will reduce weight without compromising durability, reliability, and safety of vehicles.
Improved manufacturing and use of advanced high-strength steel can reduce vehicle weight by 15 to 25 percent. The research will also work to develop new alloys of aluminium, magnesium and titanium to be used in vehicle framing, body, powertrain and engine components. Beyond metals, new materials for use in car manufacturing such as carbon fibre and polymer matrix composites could produce weight reductions from 25 and up to 70 percent.
Each of the carmakers noted the benefits of their collaborative work through USCAR and its consortia, citing applications of technologies that already have made their way into specific vehicles:
- DaimlerChrysler has made great strides in advanced material research with the creation of the ME 412. An all aluminium engine, carbon fibre/aluminium body, and carbon ceramic composite disc brake rotors make up a vehicle that is on the cutting edge of technology. By utilising what has been learned from the ME 412, many of these technological advances in materials were further developed in the new Jeep Hurricane concept vehicle
The largest fleet of fuel cell vehicles in the world is managed by DaimlerChrysler – more than 100. Being a leader in energy storage is essential to become a leader in fuel cell technology,. DaimlerChrysler has a dedicated battery development division where engineers work to make improvements in nickel metal hydride and lithium ion batteries that not only benefit the fuel cell programme but the development of an advanced two-mode hybrid system that DaimlerChrysler is currently developing with GM.
USAMP and USABC have played a significant role in DaimlerChrysler’s advances in battery and materials technology development.
- Ford, showcasing its newly launched Mercury Mariner Hybrid, cited USABC development and benchmarking programmes that provided a comprehensive understanding of the best available hybrid electric vehicle technology. Ford also credited USAMP's Automotive Composite Consortium for developing a process that enabled the development of lightweight composite body sides in the Aston Martin product line and cited high-strength steel technologies that are funnelling into its 2008 and 2009 programmes.
- General Motors’ partnership with USCAR and the Department of Energy has resulted in significant achievements in areas including advanced propulsion, hybrids and fuel cells – all aimed at reducing fuel consumption and as a consequence reliance on imported oil.
GM’s Sequel exemplifies the company’s drive to reinvent the car and remove it from the environmental equation. The Sequel, built on an 11-inch chassis with an all-aluminium frame, combines fuel cells, by-wire and wheel hub motors to create an a vehicle that travels 300 miles on its hydrogen supply.
Lightweight materials, the focus of USAMP, also are important to the reduction of fuel consumption. GM showcased the new Corvette Z06 with a magnesium engine cradle that is 35 percent lighter than its aluminium counterpart.
“Bringing together the best minds in industry, government and academia will develop technology faster and more cost-effectively than any one organisation could do alone,” said USCAR executive director Bill Gouse.
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