Tag Archives: height

Rubber Suspension Bushings (and Revisiting Bushing Preload)

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This isn’t the first time we bring this up to you, our customer. Actually, it is a very common problem for people setting up their suspension. Once our suspension is installed, they lower the car back to the ground and notice uneven ride height from left to right side.

We’ve found this to be an issue with a few vehicles, mainly vehicles with a multi-link or “double-wishbone” suspension. And mainly this is because these types of suspensions have more rubber bushings in their suspension arms.

Once you disassemble some suspension arms in order to access the shock absorber assembly, like in a Mazda RX-8 for example, you’ll have to reassemble the arms through their respective nuts/bolts. That’s not uncommon, and this probably sounds relatively straightforward to you.

However, what we fail to account for is the fact that we typically do this when the vehicle is in the air, on jackstands or on a lift, leaving the suspension drooping down (fully extended).

Why is this important to note? Well, once you start to loosen these nuts/bolts at suspension arm joints, you’re essentially removing any tension on the bushings associated with each arm. When that same bushing needs to be reinstalled (by way of connecting the arms with the nuts/bolts you removed), you end up tightening all these bushings while the suspension is drooping down (fully extended). Those bushings that were just recently relieved of the tension they were once under are now at zero preload. Now, when you put the suspension back on and the vehicle back on the ground, these zero preloaded bushings start to twist. The only issue is the twist isn’t necessarily going to be even from any specific corner. This leads to the uneven ride height you might be experiencing.

How can we prevent this uneven ride height? Well, this requires loading up the suspension PRIOR to tightening any nuts/bolts to these suspension arms. Obviously this isn’t easy to do since the best way to load the suspension is to put the car back on the ground. There are 4-post lifts that also serve as ramps. This gives you undercar access to these nuts/bolts that you can tighten. Those with vehicle ramps tall enough to let you creep under the car to tighten any nuts/bolts is also good. However, this is the BEST way to avoid any bushing preload issue. We must note, though, that this doesn’t cure uneven ride height completely, since all vehicles do have a weight bias from one side to the other, and of course from front to back.

Does this mean that rubber bushings are a terrible design? No, not at all. In fact pretty much all production vehicles use rubber bushings. They’re effective in terms of performance and cost, which most OEM companies are very sensitive about. Quite honestly, they’re probably more durable that some aftermarket floating bushing designs since they really don’t require maintenance (periodic greasing), with the exception of sway bar bushings. Once they’re bad, you have to either replace the bushing or replace the arm that the bushing is pressed into (the latter being the most commonly offered for ease of installation).

Again, the difference between rubber bushings compared to typical aftermarket floating bushings is that the rubber bushings have any steel components, such as the crush tube and shell, bonded together through the rubber filling. Floating bushings, typically polyurethane in the aftermarket, simply have the bushing free moving between the shell and crush tube. This is great for having free-pivoting arms, allowing the damper and spring to do their job more effectively, but also requires quite a bit of maintenance to make sure they’re greased properly (you don’t want polyurethane to dry up). Not a big deal if you really enjoy wrenching on your car, and in some cases, aftermarket bushing manufacturers have included zerk fittings to either the steel tube or crush tube to ease the greasing process! Not all bushings have easy access for a zerk fitting to be placed, however, which has led to the development of bolts being gun drilled and cross-drilled and a zerk fitting threaded to the end.

Rubber bushings, again bonded to any steel shell or tube, don’t allow this free pivoting. Instead, the bushing relies on strain, or stretching of the rubber, meaning you have a limited range of motion either up or down, or even side to side. For most cars, this isn’t a problem.

Because most rubber bushings are “maintenance-free”, over long periods of time, they will dry rot and the rubber material will break away. This creates excessive movement of the suspension arms (moving in directions not intended), and can cause poor and unsafe driveability.

Spring Seat and Seat Lock Evolution

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Since the beginning, spring seats and seat locks have been a necessity for the systems ranging from our Type NA coilovers systems utilizing a three position adjustable perch on the shock body with locking snap ring to maintain the seat position, similar in design as the Koni and Ground Control set ups, all the way to the Street Advance coilovers which utilize a spring seat lock with a delrin thrust washer and seat lock to maintain the ride height position on a removable threaded sleeve which is ZT coated.

The photos below detail the different changes made to the spring seats and seats locks over the years.

The Image above is of the spring seats for the Type NA damper which, as mentioned, used a c-ring that would be placed in the desired ride height setting.

This style which utilized a spring seat, seat lock, and aluminum thrust washer as shown in the photo above was the second design released for multiple coilover kits ranging from the older style Type H2, Type HA, Basic, and Super Street, all the way up N1 coilvers as shown in the photo.

This third design which is still used with some of our coilovers today utilizes  two seat locks and 1 rubber spring seat.

This photos show the newest type of spring seats and delrin thrust washer in conjunction with the previous style seat lock which are found on the Street Basis, Street Advance, and other coilover kits both currently available and future release.

Although the material and coating has changed over the years, it would still be recommended to periodically clean and lubricate the locks, threads, and locking rings, depending on the model type. This will ensure years of trouble-free height adjustment for your TEIN coilovers.

Applying Suspension Preload

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What’s up, people? Here I go again with some helpful tips when installing lowering springs and coilover kits.

I have to honestly say that we hear the following questions countless times during the work week.

“Why is one corner of my car higher than the other?” Or, “Why is my ride height uneven?”……………..(AHHH..here we go again)..lol.

The solution is actually quite simple. The first things to check are for worn-out suspension components. We advise to check all components carefully and thoroughly. Anything can contribute to the issue previously mentioned. Worn out bushing, incorrect spring, blown damper, spring perches are not even, missing or mis-installed components, etc. If everything checks out fine, then the only candidate that would contribute to uneven ride height would be suspension pre-load. This issue is commonly encountered when installing lowering springs and/or dampers on vehicles with double wishbone or multi-link suspensions.

In some cases the lowering spring or coilover kit is installed while the suspension is in a full droop.  This means that the bolts on the lower control arm were tightened while the arm was hanging down. In other words, there is no load on the suspension when tightening all components.  When the vehicle is brought back down the bushings twist causing the suspension to not settle correctly thus resulting in a uneven ride height.

The first thing you want to do is lift the car back up. Them loosen the bolts on the control arm and shock absorber. Once in the air use a second jack to apply load on the control arm. This simulates as if the car was on the ground and the control arm is back to its original position. Then re- tighten all the bolts loosen in the previous step. Follow this process with all four corners, then bring the vehicle back down. If you follow these instructions, this should help get the vehicle to the correct ride height. Plus,
you will have learned another method on how to correct uneven ride heights, if you ever run into a similar situation in the future!