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Big Dave · 03-20-2008, 09:45 PM

Check out http://greenseal.org/resources/repor...resistance.pdf

Especially the graph on page 4 and the tabulation on page 5.

The low rolling resistance 14 inch tire was the Bridgestone B381 185-70R14 (OD = 24.2 inches) Rolling resistance coefficient = 0.0062

The low rolling resistance 15 inch tire was the Mihcelin Arctic Alpine 235-75R15 (OD = 28.9 inches) Rolling resistance coefficient = 0.0081

The low rolling resistance 16 inch car tire was the Continental Conti Touring 205-55R16 (OD = 24.9 inches) Rolling resistance coefficient = 0.0083

The low rolling resistance 16 inch truck tire was the BF Goodrich Long trail T/A 245-75R16 (OD = 30.5 inches) Rolling resistance coefficient = 0.0092

The little Bridgestone 14 incher had a rolling resistance coefficient that is 33% lower than the BF Goodrich. The 14 incher had an OD that was 21% smaller than the BFG.

The 15 inch Michelin filled the middle range but the Conti was anomalous.

Yeah the data is five years old but you use what you’ve got. Rolling resistance coefficients are not something easily found.

I do agree that "bigger diameter = more rolling resistance" seems counter-intuitive but tires are generally considered the “voodoo” of vehicle dynamics.

Looks like Randy’s is short on Nissan stuff. You may have to try the Nissan Motorsports catalog.

03-20-2008, 09:45 PM	#22 (permalink)
Big Dave Master EcoModder Join Date: Jan 2008 Location: Steppes of Central Indiana Posts: 1,319 The Red Baron - '00 Ford F-350 XLT 90 day: 27.99 mpg (US) Impala Phase Zero - '96 Chevrolet Impala SS 90 day: 21.03 mpg (US) Thanks: 0 Thanked 186 Times in 127 Posts	Check out http://greenseal.org/resources/repor...resistance.pdf Especially the graph on page 4 and the tabulation on page 5. The low rolling resistance 14 inch tire was the Bridgestone B381 185-70R14 (OD = 24.2 inches) Rolling resistance coefficient = 0.0062 The low rolling resistance 15 inch tire was the Mihcelin Arctic Alpine 235-75R15 (OD = 28.9 inches) Rolling resistance coefficient = 0.0081 The low rolling resistance 16 inch car tire was the Continental Conti Touring 205-55R16 (OD = 24.9 inches) Rolling resistance coefficient = 0.0083 The low rolling resistance 16 inch truck tire was the BF Goodrich Long trail T/A 245-75R16 (OD = 30.5 inches) Rolling resistance coefficient = 0.0092 The little Bridgestone 14 incher had a rolling resistance coefficient that is 33% lower than the BF Goodrich. The 14 incher had an OD that was 21% smaller than the BFG. The 15 inch Michelin filled the middle range but the Conti was anomalous. Yeah the data is five years old but you use what you’ve got. Rolling resistance coefficients are not something easily found. I do agree that "bigger diameter = more rolling resistance" seems counter-intuitive but tires are generally considered the “voodoo” of vehicle dynamics. Looks like Randy’s is short on Nissan stuff. You may have to try the Nissan Motorsports catalog. __________________ 2000 Ford F-350 SC 4x2 6 Speed Manual 4" Slam 3.08:1 gears and Gear Vendor Overdrive Rubber Conveyor Belt Air Dam