TimGinCentralNJ

I've taken notice over on the Bilstein.de web site where MY2003 - 2009 Legacy/Outback (BP) has an application listed for the raised ride height BP cars; both sedan (saloon) and wagon (estate). A question would be is there a difference btw our Outback (BP) model coil springs and the Germany market Outback (BP) model coils? The Germany market non raised ride height Legacy saloons and estate vehicles ride on KYB shocks and springs, that I know first hand. There is a local Subi dealer in Germany that I had visited years ago.

 

Here's are the deal; Bilstein.de strut/shock model numbers; B6 Sport series Inverted Mono Tube design. (this looks just like my JDM BTS kit, sans the progressive coil springs)

Front: VE3-B830 and VE3-B831 Sport. Rear: BE5-B832 Retail cost in Germany is little over 825 Euro, that said I'd speculate a street price of under 600 Euro.

 

Maybe a next step is to gather more info from Bilstein.de. Application etc. Maybe without saying,,,,, the BTS components can be sourced ala carte - so to speak. Someone ought to reach out to Bilstein Germany - I'm just saying.

Certainly in Germany these high end B6 Bilstein's are being fitted with the raised ride height (BP) OEM Subaru Outback coil spring; is this a permissible outcome? B6 strut/shock w/OEM coil springs Germany style.

 

Just a thought.

 

Edit: P.S., importing from Germany is waaaaay better than Japan. (my family is in Germany)

MS-

Out of curiosity, is this something you're planning on following-up on through your contacts in Germany? If we could find out what changes (if any) need exist between the Germany parts and your existing parts list, it would be interesting to see if the dealership in Germany would be willing to build a "kit" for us here in the U.S.

If it helps any, I have a very good friend in Netherlands who's a die-hard "car guy" and does some reselling of BMW parts (he's in Germany a lot). He'd be willing to speak with the dealer and see if something could be worked out. I'd also trust him to arrange shipping, as well if something does come of this.

I'm just not sure what the "next steps" should be....

Thoughts?

Tim

Definitely interested.

At 76k miles, the suspension which was just "quirky" when the car was new has gotten much worse with age...worse to the point where I'm starting not to want this car any more--especially since I'll soon be faced with spending in the neighborhood of $800+ (just a guess) to replace the crappy OEM springs and struts with another crappy set of the same. I'd rather spent a little more and get some thing which addresses this awful suspension, and keep the car.

....boy, I sure hope so!!

Anyone have any updates?

Tim

Hey hutru01, the HIGHER or LOWER question reminds me of the Monty Python skit:

 

I came here for an argument. No you didn't. Yes I did. This isn't an argument it’s a contradiction. No it isn't. Yes it tis . . .

 

Yeah, agreed. The pictures and the dates are conclusive.

 

Hey, holter95 just having fun. Ask anything ya need.

Love it!!!

How funny is it that this was the sketch which came up on my Monty Python calendar yesterday?

Thanks for the laugh....

Tim

LSD's don't shift power from side to side. They simply lock and unlock (and for the viscous varieties, an infinite range in between). They don't actively hunt for traction. They passively couple the rear wheels together when more slip occurs on one wheel than the other..

Agreed. Clutch or viscous type LSDs don't "hunt" for traction, but when wheel spin is detected intermittently on each wheel, the act of engaging internal clutches to bind both wheels together does technically result in the transfer of torque from the wheel with the most wheel spin (because torque cannot exist where traction does not exist) to the wheel with the least wheel spin. On a slippery surface where both wheels have poor traction, the act of an LSD locking and unlocking will often cause both rear wheels to lose traction at the same time. Hopefully that clarifies my comment a little better.

Still, the fundamental issue comes from the automatic transmission. Either that, or a lack of driver experience. I know none of the 5MT Subaru's I've ever had have been "wiggly" or "unsafe" feeling, and driving my wife's 09 Impreza (which has an automatic) in the snow this year definitely feels less stable than my car.

Yeah, I can't say that I've run across this on my manual trans 2005 OBXT either. Yes, I've had the rear slide out before, but only in turns on slipper surfaces where I've applied throttle and shouldn't have.

1) The current OB suspension was unveiled in 2000. The multilink rear suspension hasn't changed very much.

Perhaps the overall "design" hasn't changed significantly from 2000 to the current gen OBs, but the "execution" of that design on MY 2005 and newer cars is a whole different story. Being both under-sprung and under-dampened are not characteristics of any of the pre-2005 models I've ever driven.

Tim

If it doesn't feel any back torque it will shoot power to the opposite side and look for traction there. If there isn't enough traction on that wheel, the diff becomes confused and will continually shift power between the two front wheels looking for traction causing a really unsettling 'wiggle' until one of the fronts once again finds traction.

Bingo! I think you've got it....

It's the rear LSD becoming "confused" and shifting torque from side to side because it can't find enough traction on either wheel. The result is, the rear wheel which is receiving the majority of torque at that moment briefly loses what little traction it has making it feel like the rear of the car wants to break loose. Now imagine this happening from side to side every few seconds....it would feel like your rear end can't stick to the road.

This is one of the reasons why most hard-core off-roaders won't use traction differentials which they cannot fully engage or disengage manually. Sometimes having a rear wheel spin will allow the vehicle to maintain its direction whereas a traction differential--because it's designed to automatically try and find a wheel with traction to move the torque to--can cause both rear wheels to lose traction, causing the vehical's rear end to spin out....possibly at a really bad time...say when you're on the edge of a cliff

Tim

Tim

i think its the rear lsd forcing power to the wheels.

Finally, someone agrees with me!

I know this board never came to a definitive answer on this issue, but personally I believe it's the LSD shifting torque from side to side on slippery surfaces--and possibly (at least on auto trans) compounded by the shifting of torque from front to rear, too.

Having driving a buddy's old bmw on packed snow once, I remember feeling the rear lsd shifting power from wheel to wheel back and forth making the tail want to flip out in either direction even though I was driving with a steady foot, in a straight line on a flat surface. Based on my experience at least, this is the most plausible explanation.

Tim

Not really. It's more an issue of updating the suspension to a newer and better design. I doubt Subaru would say their BP/BL vehicles have handling issues. This thread was finally dead too.

+1.

IMO, they've got "nowhere to go but up" on their suspension design on the current gen OB. I've driven older OBs and the design introduced with the MY 2005 OB was a definite step in the wrong direction...most likely in a feeble attempt to do what Audi did with pneumatic suspension on the Allroad only without the cost and complication. Hopefully they'll get it right this time.

Tim

I do not own an Outback, however, I did push one really hard during a test drive. The ass end is HEAVY. I tried throwing it around a sharp corner at high speed and I could feel the back end trying real hard to get in front of the front end. That is ultimately why I did not buy an Outback. Very nice vehicle otherwise.

 

If your speed and direction is constant, the issue I described above should not be a problem. It would only become a problem during braking.

 

strike

Wow, just realized this is an old post...I thought I was subscribed to this thread, but maybe not!

Not sure exactly what the F/R weight ratio is in the OB, but I'm wondering if what you felt might've also been the result of the poorly matched suspension combined with typical behavior of many AWD systems. I know when I do any hard cornering in my OBXT (which I don't do often because it's not pleasurable), the rear end definitely sways big time....that along with the rear wheels pushing at the same time feels like your arse is about to pass your front!

Tim

Oooooo. My wife bought a 240SX years ago. Oh my god was that thing horrible when perfect driving conditions were not available. She flew off the road so many times it scared me. Thankfully, she drove at 10mph (in the snow) so she was never hurt but I sold that piece of crap as soon as I could. I later found out that I could have added a LSD to the rear which would have GREATLY improved its handling in limited traction conditions.

 

strike

Many years ago, I had the predecessor to the 240...the 200sx (the V6 model with a whopping 160 hp... woo hoo!). Was a great car, but I'd agree with your wife's assessment in the snow...until I put snow tires on it, and about 100 lbs of weight in the rear hatch. That turned it into a tank.

If I can't have AWD I've always preferred RWD with snows and weight over FWD personally.

Tim

An LSD is no real compensation for improving handling. Especially on a RWD car.

It may help to get the traction down, but won't do much when the rear end comes loose.

I'll take it one step further and go on record as saying "a rear LSD can help cause the rear end to come loose" on a slippery surface because it's constantly shifting power back and forth between the left and right wheels in an attempt to reduce slippage. If the road is slippery enough, the transfer of torque between sides can actually cause the back end to lose all traction, e.g., become "tail happy". And after thinking about this a while, I'll betcha' over-inflated tires would amplify this situation.

If you talk to any hard core off-roaders, they'll tell you an open differential is the best thing to have on icy surfaces because there is no transfer of torque which can cause the vehicle's stability to shift suddenly.

Tim

Could presence of rear LSD explain such behaviour?

If it locks/unlocks it may cause some side to side movements I think.

 

Krzys

Good question...I was wondering that myself.

Although not an AWD or a Subaru, I used to borrow my old roommate's bmw 320i which had a rear LSD and that's exactly how it behaved in snowy conditions--even on flat road surfaces. Even when driving at slower speeds, you could feel the LSD shifting power between the rear wheels which had a tendency to make the rear want to kick out.

I haven't taken note how many of the people who belive they've experienced this problem had a rear LSD in their Subarus, but it does sound plausible.

Another possibility: I'm running WinterForce M+S (studded) tires, and I have noticed the rear in my OBXT has seemed a little more tail-happy than normal this season (even on snowy roads) since I began running higher-than-recommended tire pressure in an attempt to have slightly better dry handling and better gas mileage. Although the higher tire pressure reduces the contact patch, it also makes the tire harder and less able to grip a slippery surface. Combined with the rear LSD and the fact the rear of the car has less of the vehicle's weight than the front....sounds like a recipe for 'slippage', eh?

Thoughts anyone?

Tim