The binding in a MKIV R32 (or most Haldexed cars actually) has nothing to do with the rear axle differential, since it is an open differential and allows the rear wheels to rotate with different speeds.

The "problem" is the same as for a fully locked rear differential when turning, but it is the difference in distance covered by the front axle compared to the rear axle. If the Haldex is fully locked (50-50 front to rear) it creates the same situation as for when a RWD car with a locked rear differential is turning.

In the Haldex case it is somewhat harder to understand, but rear and front wheels are not covering the same distance in the same period of time, forceing them to either turn at different speed (which is ok with an open center differential, say FWD or RWD car) or with a LSD (limited slip differential) coupling. The Haldex is a LSD coupling allowing front and rear axle to rotate with different speeds with stock software (ECU). The performance controller locks the LSD to a 50-50 state and thus forces the front and rear wheels to rotate with the same speed.
To be able to turn, something has to give, and normally the tires would "skid" towards the road surface unless you have a lot of traction. Going slowly in a sharp turn (parallel park for example) means you have lots of traction. This is why the binding phenomena occurs.

I assume this phenomenon forces the clutch discs in the Haldex to slip even though it is in full lock. They are designed to slip and the oil helps the slipping by reducing the friction (and cooling) but when in full lock the forces on the clutch discs are a lot higher - so it would wear the discs to a greater extent than intended by the engineers initially. However, the clutch discs are engineered to cope with massive torque, so I think it will only be a problem after a long time.

Haldex has a system on the market (Saab 9-3 XWD was the first car with this) with a eLSD coupling between the rear wheels as well. Working the same way as the center Haldex in the R32 but between the rear wheels, it always puts the torque where it makes the most power. This is great for track driving. The inside rear wheel in a corner will have less traction (or even none being in the air..) and in a car with a fully open rear differential, all power will be lost through that wheel. With the eLSD rear Haldex, more or all power will be transfered to the other wheel with lots of traction. Since it is a limited SLIP differential, it copes with turning issues by allowing both rear wheels travelling at different speeds. When not needed, it can also open up fully, just like our "normal" center LSD coupling.
The same goes for the R32 between front and rear with a stock controller..

I hope this helps you guys understanding..


One more thing, correcting some posts here:
Haldex transfers torque even without wheel slip, also with a stock controller. The only thing needed for torque transfer to happen is different axle speeds front to rear. This occurs a lot more often than just when wheels slip (which is difficult to understand).
Acceleration, retardation, turning and even more cases adds to the Haldex function, and it transfers torque to the rear wheels.
When going at a constant speed, straight forward, it is at minimum torque transfer, and only ~5% of the torque goes to the rear wheels.

And even though the maximum lock is 50-50 regardning how fast the wheels can turn, almost 100% (minus some friction in losses turning the front axle) of the torque can be transfered to the rear axle.
You can try this at home by putting the front axle on axle stands and drive away. (I do not take responsibility to damages underneath your cars when doing this, your car will drive forward!!) The force driving the car forward comes from 100% torque on the rear wheels. This is of course a stupid example, but the same thing occurs when the front wheels loose traction in real life situations. On ice, wet or other places.. If they only loose some traction, just some more torque is transfered, but it is the same principle.

Sorry for a long and maybe "nerdy" post, but I hope this clears some misunderstanding and adds to some more knowledge regarding the Haldex unit.