From the development of polymers that make cars lighter to fuels that make them run cleaner, the chemistas role in the automotive industry has evolved to be one that is more outside the laboratory than in it. Drawing on the authoras 20 years of experience in vehicle design and laboratory experience, The Role of the Chemist in Automotive Design elucidates how the skills of chemists are put to use in the automotive industry and their effect on all phases of design. A glance through the table of contents provides an overview of the issues commonly encountered by chemists in the automotive industry. The author discusses fuels cells, lithium ion batteries, carbon nanotubes, and nickel metal hydride technology, all of which require the technical knowledge of a chemist but cross the lines of various disciplines. He also covers future technology including items such as battery technology, fuel cell membranes, and environmentally friendly plastics such as nylons that use castor oil as a primary component. The book examines environmental concerns such as CARB legislation and how the industry plans to deal with the new legislation with strategies such as Ozone Reduction Catalyst. The increasing technological, environmental, and economic issues facing the auto industry underscores the need for a basic reference that covers technologies that can be used to make vehicle more fuel efficient, environmentally friendly, and cost efficient. Exploring the expanding role chemists will play in future automotive design and technology, this book delineates the areas and technologies that require the technical knowledge of a chemist but that cross the lines of many disciplines.7.14 transmIssIon FluId tyPes The many different types of transmission fluids can be somewhat confusing. Original ... with type F; ceased production in 2007; serviced with Mercon V Introduced in 1997 with Ford Ranger, Explorer, Aerostar, etc.
|Title||:||The Role of the Chemist in Automotive Design|
|Author||:||H. K. Phlegm|
|Publisher||:||CRC Press - 2009-06-18|