If camber is so realistic in iracing then why is the V8SC always run with minimum camber at the front? You said yourself that such low downforce car should have a lot of camber. Mertol April 17th, 2017 at 2:20 pm. A V8 car runs high caster, which in turn adds camber. Set the correct Force Feedback in iRacing. Open the iRacing simulation. Drive at least two laps. Stop and press F9 which opens the Graphics Adjustments black box. On the lower right side of the black box it should say ‘auto.'. If it doesn't, you either didn't drive enough laps or you have FFB disabled in the Options.
In article 5.5 we've covered ride height, and with this article we'll continue the setup adjustments on the suspension, namely camber and toe. We'll go over both of them together, as their effects are tightly coupled.
Camber
Camber is the vertical inclination of the tire. Zero camber means that the tires are straight, perpendicular to the road and parallel to each other. With positive camber, the top of the tires points outwards of the car. With negative camber, the top of the tires points inwards.
Toe
Toe is the angle the tires are rotated around their vertical axis, looking at them from above the car. You have no toe if the tires are parallel to each other, along the direction of the car. Torrent american gangster ita. You have toe-in when the tires point in towards each other, and toe-out when they point away from each other. Coupling matrix synthesis software crack download.
The effect of camber on available grip
As you go through a corner, the cornering force (as discussed more thoroughly in 5.3) causes the car to roll and the tire to deform, as it twists between the car which wants to go one direction, and the track that's going the other direction. This is called lateral tire deflection.
With zero camber, the force on the tires are equally distributed along the contact patch when you're standing still or driving in a straight line. This increases the available grip under straight line braking and acceleration (assuming no camber gain). Cornering with zero camber causes one side of the tire to unload, while the other side of the tire takes more load. This is unequal load distribution and lowers the overall available grip on the tire, just when you need it most: while cornering!
With negative camber, the force distribution along the contact patch is somewhat unequal while driving in a straight line. However, when cornering forces and carcass deflection come into play, they can negate the effect of negative camber, equalising load distribution along the contact patch. This maximises the available grip on the outside tires (which are the ones taking the heavier load), exactly the moment when the car is limited by its available grip. This is the exact reason why typically on road cars you'd use negative camber.
Tradeoffs of using camber
As always, nothing comes for free. While camber can help cornering, it causes additional heat, more tire degradation and uneven wear pattern on the tires. You should also realise that you are trading off traction on a straight line (braking and acceleration) with cornering grip. This means that the track profile is a determining factor on how much camber you want to run. In general, a track with mostly straights and low speed corners, you'd run lower camber; and on tracks with lots of bends or high-speed corners, you'd run more camber. And, as always with mixed profile tracks, you'd have to experiment different settings to see where you can gain more time; on the straights and low-speed corners, or high-speed corners.
Camber and vertical stiffness
Vertical stiffness of the tire is hugely tied with tire pressures, as discussed in 5.2. This is mostly to be considered on tires with high sidewalls. Volbeat full discography torrent. Having the tire inclined at an angle may cause the sidewall to deform a little. The effect is that of a softer tire without changing the tire pressure. As of time of writing, this really is only something to consider with two cars on iRacing, the Williams FW31 and the McLaren MP4-30.
Iracing Camber
Tradeoffs of using camber
As always, nothing comes for free. While camber can help cornering, it causes additional heat, more tire degradation and uneven wear pattern on the tires. You should also realise that you are trading off traction on a straight line (braking and acceleration) with cornering grip. This means that the track profile is a determining factor on how much camber you want to run. In general, a track with mostly straights and low speed corners, you'd run lower camber; and on tracks with lots of bends or high-speed corners, you'd run more camber. And, as always with mixed profile tracks, you'd have to experiment different settings to see where you can gain more time; on the straights and low-speed corners, or high-speed corners.
Camber and vertical stiffness
Vertical stiffness of the tire is hugely tied with tire pressures, as discussed in 5.2. This is mostly to be considered on tires with high sidewalls. Volbeat full discography torrent. Having the tire inclined at an angle may cause the sidewall to deform a little. The effect is that of a softer tire without changing the tire pressure. As of time of writing, this really is only something to consider with two cars on iRacing, the Williams FW31 and the McLaren MP4-30.
Iracing Camber
Iracing Correct Camber And Tire
Effects of toe-in and toe-out
There is one more effect of camber that we haven't mentioned yet. If you roll a free tire at an angle, it would want to follow an elliptical trajectory instead of a straight line. In other words: an angled tire wants to turn. The force that causes this effect is called camber thrust. This results in a bit more friction, heat and wear, which can be offset by a toe-out adjustment. You can also use a toe-out adjustment to get the slip angles of the front tires in a more optimal spot. So you'd typically run some toe-out on the fronts.
Iracing Correct Camber Car
Toe adjustments on the rear tires also have an effect on car handling. Toe-in on the rear creates understeer, which can help with cars that are oversteery on exit. The tradeoff is wear and heat in the rear tires. Toe-out on the rear is generally wrong, as you're likely to get more oversteer on exit.
Iracing Correct Camber Bar
Up to you
Iracing Correct Camber Vs
While building a setup, go through the order of tire pressures, anti-roll bar, ride height and spring rates. If you have that set, experiment with the camber angles to find the optimal balance between speed in the corners and on the straight. Use toe-out on the front tires to counteract camber thrust, and possibly toe-in on the rear tires, to optimise handling.