220 turbo
300BHP+
vwoooooommmmmmm
Can't see why - it's the same diff & gearbox - except the 220 comes with the option of a lsd.Then you would find the limits of the IRD/PG1/diff
Ere - @Diesel Do - did ya read this??? ". The system features a high-capacity electric pump for rapid water circulation and optimal cooling efficiency. "You want one of these...
http://www.landrover-center.com/news/Freelander-L314/14314
You want one of these...
http://www.landrover-center.com/news/Freelander-L314/14314
Can't see why - it's the same diff & gearbox - except the 220 comes with the option of a lsd.
I like the way that the production 220 coupe turbo with PG1 was rated at 174Ftlb out of the factory - that is a knats off the quoted constant max of the 'U' PG1 box.There was a supercharger kit available for the MGR KV6 that could be made to fit the Freelander. However the crank has been known to fail on supercharged units. I would put that down to crank nose loadings, due to the charger.
That's not entirely accurate MHM. The box fitted to the Freelander is a modified 1.8 Rover K series PG1 box. It is available in standard 120Ftlb (1.8) and 177Ftlb (L series) ratings.
The box that fits the M/T series bell, won't take the Freelander's IRD. The Freelander's front diff is also in the IRD. There's no diff in the gearbox, only a gear to drive the IRD.
That's not entirely accurate MHM. The box fitted to the Freelander is a modified 1.8 Rover K series PG1 box. It is available in standard 120Ftlb (1.8) and 177Ftlb (L series) ratings.
The box that fits the M/T series bell, won't take the Freelander's IRD. The Freelander's front diff is also in the IRD. There's no diff in the gearbox, only a gear to drive the IRD.
Interesting... I can see a possibility with an adaptor plate for the L series U box onto the T ....have you any details ? -It's been done
Hi Nodge, from the amount of research I have done ref the PG1, the 'weakest' point or common issue with increased torque appears to be in the area of the differential / diff support bearings.The original torque capacity of the PG1 box was set by Rover many years before the Freelander was released. This was in the days of the Rover 800 Vitesse Turbo. The boost on those engines was artificially limited to keep torque under 175 Ftlb. The reasons behind this, was to limit warranty claims on gearbox failures.
Yes the gearbox will take more torque but it will have a shorter life.
Don't forget that an AWD vehicle is harder on the gearbox. The reason for this is tyre grip. A FWD will simply spin its tyres, burning off excess torque as tyre smoke. A kind of safety valve if you like.
An AWD will have much more grip, which means a less tyre spinning. Less tyre spin, means more torque through the box.
The IRD is very strong, so as long as the bearings are ok and the oil changed frequently, it should be able to cope ok.
The rear diff can be similarly treated, to prolong its life.
Hi Nodge, from the amount of research I have done ref the PG1, the 'weakest' point or common issue with increased torque appears to be in the area of the differential / diff support bearings.
I would have thought that this area was not much of an issue on the freelander as a lot of the 'standard diff / dual cv load etc is removed - ok - transferred.
I would also have thought that the diff (ok, on the freelander - 'output reduction drive') bearings could be up-rated if needed. Probably not.. ?
I agree re the method of torque transfer being harder on components, however, a lot of the issues with turbo engines in road cars is that they are used in a far 'sportier' way with hammering gear changes and massive & rapid load / torque changes. I would say that imho this certainly does a far better job at destroying boxes.
I have not heard of many issues with freelander boxes I must confess (PG1 that is.... )
What have been your findings / observations ?
Joe
The KV6 PG1 doesn't suffer to bad at all. It is the only PG1 equipped vehicle that has a fixed support shaft on the RH drive shaft. This not only gives the ZS180 equal length drive shafts, but also takes drive shaft loadings off the RH diff carrier bearing. RH drive shaft loadings are taken by a dedicated support bearing.
Ere - @Diesel Do - did ya read this??? ". The system features a high-capacity electric pump for rapid water circulation and optimal cooling efficiency. "