Seriously "active" aero
- Thread starter dbk
- Start date
STORMCAT
GT
Indy GT
Yea, I got one...too
WOW! That was fast!!!
Thanks for the comments. Always welcome! And thanks Kendall for setting me up.:thumbsup
Just the facts mam....
Thanks for the comments. Always welcome! And thanks Kendall for setting me up.:thumbsup
Just the facts mam....
twobjshelbys
GT Owner
:thumbsup - Envision a plane flying upside down - the employment of the flaps would create increased lift in the downward direction. Such is the intent of downforce created in the automobile application.
STORMCAT
GT
I'm originally from from Iowa. In the winter we wore those hats with the big side flaps over the ears. I think they created down force to keep the hat on your head.. is that the same thing you guys are talking about... ??
confused :biggrin:biggrinThe race car wing itself is in a fixed position, but there are a number of adjustments they can make for the angle of the wing element itself.
twobjshelbys
GT Owner
Yes for static adjustments. Movable parts are not allowed while the car is in motion.
timcantwell
Le Mans 2010 Sponsor * Moderator
Fubar
Totally ****** Up
Incase anyone was unclear... Indy rocks! I can see him explaining this to his 4 year old grandchildren just like that. Where I might say "traction guud, cars no suppose to fly... see?
Indy GT
Yea, I got one...too
Thanks for your kind comments, Mark!
Now let the owners see the fruit of all your hard development work on your car. Hope to see you and your amazing car at a rally SOON!!:thumbsup
Oh and my 3 year old grandson is a huge "Blue Oval" fan. He spots the trademark everywhere and exclaims "Blue Oval Papa"! Technical lectures to start soon....:biggrin
Now let the owners see the fruit of all your hard development work on your car. Hope to see you and your amazing car at a rally SOON!!:thumbsup
Oh and my 3 year old grandson is a huge "Blue Oval" fan. He spots the trademark everywhere and exclaims "Blue Oval Papa"! Technical lectures to start soon....:biggrin
Fubar
Totally ****** Up
I presume he will be applying for his own 2016 FGT. I think that's the kind of customer loyalty they are looking for.
I'll post up a few pix of my car. I think we are close (but I've thought that before).
I'll post up a few pix of my car. I think we are close (but I've thought that before).
So after having watched the CGI video Ford released a few days ago, it's clearly visible that there ARE flaps that extend up on the trailing edge of the rear wing. You can see in in real time between 0:19 and 0:21 in the link below. Granted this is all a CGI video, so it's possible it isn't on the real car, but I doubt they would go through the trouble of including something that wasn't bound for the production car at this point.
[video=youtube;oybeEvACGwA]https://www.youtube.com/watch?v=oybeEvACGwA[/video]
[video=youtube;oybeEvACGwA]https://www.youtube.com/watch?v=oybeEvACGwA[/video]
Wow, great link.
His follow up video with a 1982 Holden Commodore is very interesting.
https://www.youtube.com/watch?v=vzMe1e9fE50
Indy GT
Yea, I got one...too
Actually the Gurney Flap video suggested by twobjshelbys is very good.
I understand the complaint by some that the Grey’s Garage video is a bit long, but discussing aerodynamics to people not familiar with the topic requires some time to define and discuss aerodynamic terms used in the discussion. I believe the author does a pretty good job of this and most will be able to follow his topic development. Aerodynamics is a complex topic requiring testing and measuring results to draw conclusions. As well as understanding basic aerodynamic principals. Modification intuition and what “looks good” many times turn out to be the exact opposite of what the designers actually want. This is why actual testing (or analytical modeling) is so important especially with the high speeds capable in our FGT.
In aerodynamic development of the 05-06 FGT, the Ford engineers used as a starting point aerodynamic data collected from putting an actual 1968 GT40 (chassis # 1030) in the wind tunnel and measuring /documenting the baseline shape aero characteristics. This model represented the 1968 and 1969 Le Mans winning vehicle. See SAE publication 2004-01-1254. Although the GT40’s overall coefficient of drag and Lift over Drag coefficients (L/D) were quite good and lower than the 05-06 design targets, the frontal coefficient of lift was terrible (up to 340% above the new GT design target) and rear coefficient of lift was not great either at 100% over target. See report Table 1. After measuring this data, the Ford engineers concluded, “it was clear why GT40 drivers complained of front-end lift on the Mulsanne straight!”. These shape deficiencies were corrected in our 05-06 FGT design as many of our high speed owners will attest.
As the aerodynamic analysis “state-of-the-art” has advanced in the 13 years since the 05-06 design was brought into production, I am sure aerodynamic design elegance in the 2016 FGT will be amazing. It has been reported that aerodynamics was THE design factor in arriving at the new Ford GT shape.
Likewise, the second aero video recommended by DoctorV8 by Gray’s Garage on aerodynamic modifications to enhance track stability of the 1982 Holden Commodore is also good and emphasizes the need for testing and results analysis before embarking on a modification program. Although I could do without the piano background music in this video.:biggrin
I understand the complaint by some that the Grey’s Garage video is a bit long, but discussing aerodynamics to people not familiar with the topic requires some time to define and discuss aerodynamic terms used in the discussion. I believe the author does a pretty good job of this and most will be able to follow his topic development. Aerodynamics is a complex topic requiring testing and measuring results to draw conclusions. As well as understanding basic aerodynamic principals. Modification intuition and what “looks good” many times turn out to be the exact opposite of what the designers actually want. This is why actual testing (or analytical modeling) is so important especially with the high speeds capable in our FGT.
In aerodynamic development of the 05-06 FGT, the Ford engineers used as a starting point aerodynamic data collected from putting an actual 1968 GT40 (chassis # 1030) in the wind tunnel and measuring /documenting the baseline shape aero characteristics. This model represented the 1968 and 1969 Le Mans winning vehicle. See SAE publication 2004-01-1254. Although the GT40’s overall coefficient of drag and Lift over Drag coefficients (L/D) were quite good and lower than the 05-06 design targets, the frontal coefficient of lift was terrible (up to 340% above the new GT design target) and rear coefficient of lift was not great either at 100% over target. See report Table 1. After measuring this data, the Ford engineers concluded, “it was clear why GT40 drivers complained of front-end lift on the Mulsanne straight!”. These shape deficiencies were corrected in our 05-06 FGT design as many of our high speed owners will attest.
As the aerodynamic analysis “state-of-the-art” has advanced in the 13 years since the 05-06 design was brought into production, I am sure aerodynamic design elegance in the 2016 FGT will be amazing. It has been reported that aerodynamics was THE design factor in arriving at the new Ford GT shape.
Likewise, the second aero video recommended by DoctorV8 by Gray’s Garage on aerodynamic modifications to enhance track stability of the 1982 Holden Commodore is also good and emphasizes the need for testing and results analysis before embarking on a modification program. Although I could do without the piano background music in this video.:biggrin
Cobrar
GT Owner
Indy GT
Yea, I got one...too
Contemporary???
Rex, you are showing your age....:biggrin
Although Stairway IS a classic!