Piston Rod Polishing

One major component for a damper is a piston rod that has to be low friction, but also robust enough to handle stress loads and high temperatures. Typically material-wise, it has to be a high-strength alloy.

In our case, we use cold-drawn chrome-moly steel rods. The cold-drawing method helps to produce a near-finished surface that only needs to be polished (done by centerless grinding). In doing so, the piston rod, which is in contact with several components like our dust seal, some o-rings, and our piston rod guide, which is PTFE (Polytetrafluoroethylene) coated.

This shows are centerless grinding of piston rods during production.

Over time, especially from high mileage use, this polished piston rod surface can start to see some wear. Debris being kicked up from the road will contact the piston rod surface, scratching and, in more extreme cases, pitting the surface. This can create proud bumps on the piston rod. When portions that are subjected to this scratching/pitting contact other parts of the damper, like the dust seal, it can damage it, allowing dirt and debris to enter the damper.

Even such light scratches as shown below can cause problems like noise during operation.

Light scratches can cause problems such as noise during operation.

During periodic inspections of your suspension (you are inspecting them, right?), it is a good idea to inspect the piston rod surface, especially portions under the dust boot and at the top of the damper body (where the dust seal is). You may notice that this portion of the piston rod may have a much more finely polished surface compared to other parts of the rod that do not actually enter the damper. At this “working” section, you should inspect for any light scratches or pitting.

In many cases, these scratches/pits can be corrected by polishing using an abrasive compound (we’ve actually used Mother’s Wheel Polish) and a cloth to rub the compound back and forth over the piston rod surface. You’d be surprised how good a finish you can put back onto the piston rod just by polishing by hand.

This used damper has some small scratches on the piston rod causing noise during operation.


Discounted Coilovers for Formula Drift Irwindale

We’ll be attending this year’s Formula Drift event at Irwindale Speedway on October 13-14, 2017.

Rumors abound that this will be the last Formula D event at this specific track (which has been the same rumor for the past five years or so; seems to be a legitimate claim this time).

As always, we’ll have our merchandise for sale, as well as some products on display.

We’ll also be bringing some discounted coilovers that we brought to JCCS (which was kind of a last-minute notice).

*These are technically used coilover kits (test & evaluation). In actuality, they were mostly used for fitment testing and for obtaining ride height adjustment range data and were not really driven on. These kits will be sold as-is and without warranty.

GSB14-1UAS2

GSK10-1UAS2

GSP26-1UAS2

GSHD6-1USS2

VSM40-C1SS1

DSE20-LUSS2

GSB90-51SS3

 

See special pricing below:

*Prices are for cash payment (we will not be able to process credit card transactions during Formula D)


***We will only be bringing qty 1 of  each part number listed. The list below is solely to show applicable vehicle models by part number***

1992-1995 Honda Civic Suspension Testing

While this car has been out of production for well over 20 years now, we still find that the 1992-1995 Honda Civic is still a good seller in terms of our suspension products. Many older vehicles don’t really fare so well when it comes to aftermarket parts. Many parts being discontinued due to little demand. However, Civics of this generation are still very popular platforms to modify, and there are still plenty of them on the road, whether in sedan, coupe, or hatchback form.

Many of our customers should be well aware that TEIN is adamant of technological innovation in suspension. In fact that is a huge part of the name “TEIN” (TEchnological INnovation). Year after year we always look into ways to improve our suspensions and we try, as much as possible, to offer various kits to make it easier for the customer to choose the correct kit for their needs.

With that said, we’re still working on developing suspension for the ’92-’95 Civic. Currently, we’re working on the specifications for our upcoming STREET BASIS Z & STREET ADVANCE Z applications. While this line has been out for a few years now, we had yet to release it for these model years of Civic.

Why bother with testing, especially if we already have existing STREET BASIS and STREET ADVANCE coilovers? Why not just carry over the same specs of that kit to the newer Z line? That would be the easy way of doing it. However, we rely very heavily on customer feedback when deciding what spring rates and what type of valving we will designate for each application. Over the years, our customers’ mindsets have changed. In the past, we were making suspension kits that were very aggressive in terms of springs and valving, mainly because the customers were expecting a very sporty ride feel. While great for track driving, they proved to be very harsh for the street, especially if it was for a daily driver.

Over the years, we’ve taken the time to revise our tuning philosophy for suspension. Making dedicated street suspensions such as the STREET BASIS and STREET ADVANCE lines, we wanted good performance with uncompromising comfort to be the emphasis.

That, along with other updated suspension components like our Advance Needle (for damping adjustable suspension), and piston valve designs, different shim designs, etc. , means that we must retest certain vehicle platforms to make sure there is no degradation in either performance or comfort. Simply trying to carry over an old specification into a new suspension doesn’t always work out so well.

So, back to testing the ’92-’95 Civic and finding that good balance we’re looking for! Actually, since we’re on the topic of this car, we’re planning to revise the spring rates for the front (from 7kg/mm to 9kg/mm). That may not sound logical, since we’re trying to set up a good street kit with ample comfort. But, with the prototype valving we’re testing on it, it is working perfectly!!

Oh, and I forgot to mention- look for the new STREET BASIS Z to start around $450 and STREET ADVANCE Z at $550 for this platform Civic when it’s released later this year!

2017+ 86 & BRZ FLEX Z, FLEX A, & MONO SPORT Coilover Testing

We just finished up some testing on the 2017 Subaru BRZ (and which would of course affect the 2017 Toyota 86). While the vehicles aren’t drastically different compared to 2012-2016 model years of the aforementioned vehicles (the 86 previously named the Scion FR-S), there are some small changes in suspension that affect how our existing coilovers feel.

TEIN Japan currently sells part numbers VSTD8-C1SS4 for the FLEX Z line, VSTD-D1SS4 for the FLEX A line, & GSTD8-71SS4 for the MONO SPORT line for their market.

Stateside, we currently sell the VSQ54-C1SS4 for FLEX Z and GSQ54-71SS1 for the MONO SPORT line. For the FLEX A, we previously sold the VSQ54-D1SS4 model number. Now we sell the VSTD8-D1SS4. For the MONO SPORT line, we’re looking to start selling TEIN Japan’s GSTD8-71SS1, since there isn’t much variation between the U.S. and JDM spec.

Phew, that’s a lot of part numbers…..

So, why the change to FLEX A part number VSTD8-D1SS4?

The reason is that there are a lot of similarities between the U.S. part numbers for FLEX A and FLEX Z. If you’re not familiar with either, we’ll just say that the FLEX A includes our proprietary Hydraulic Bump Stop (H.B.S.) and is also a serviceable damper (can be rebuilt/revalved). In terms of cost, the FLEX A is $210 more.

Since the features are really the only noticeable difference, we had to look at damping force between the JDM and US kits to see what would work best for our market. The U.S.-spec FLEX A and FLEX Z both had very similar damping characteristics. Aside from the H.B.S. setup in the FLEX A’s, they feel nearly identical.

With that said, we wanted there to be difference between the two kits. Something that will help differentiate the two when a customer decides what they’ll be using the kit for.

So, we recently started offering the newer part number of FLEX A, the JDM version, part number VSTD8-D1SS4. These actually have a difference in damping, being more aggressive. We feel this may end up being a better option for the more-than-occasional track driven car owner. Being a serviceable damper, this also will allow owners the ability to revalve the dampers for different spring rates, if necessary. Along with being slightly more aggressive, the damping adjustment range is shifted up slightly, giving the end-user a higher range of tuning flexibility at the track.

That’s not to say that the FLEX Z isn’t at all capable of track use. However, we wanted this setup to offer greater compliance for a daily commuter, while still having an available adjustment range that allows for much more sportier handling characteristics. Comfort was just more of our aim for this kit, and it is greatly noticeable on larger bumps as high-speed compression is softer and more forgiving.

 

FLEX Z and FLEX A coilovers will look nearly identical. But, as mentioned in this blog, there are some features that FLEX A has over the Z line: Hydraulic Bump Stop, serviceable dampers (rebuild/revalve), and slightly more aggressive valving out of the box.

 

So, as far as a total breakdown of each suspension offering we have for the FR-S/86/BRZ:

STREET BASIS Z (GSQ54-8USS2)– perfect for daily driver not looking to sacrifice OE ride feel but improve handling performance, while being ride height adjustable.

FLEX Z (VSQ54-C1SS4)– high performance street kit, with 16-click damping adjustment and included upper mounts (camber adjustable for front).

FLEX A (VSTD8-D1SS4)– higher performance street kit/occasional track kit with aggressive damper valving, but with a greater adjustment range for ease of tuning. Included Hydraulic Bump Stop (H.B.S.) providing greater control and damping stability against repulsive compression force. Includes upper mounts as well (camber adjustable for front).

MONO SPORT (GSTD8-71SS1)– entry-level race setup with single adjustable damping. Monotube internal structure with greater oil capacity for better endurance and performance for long track stints. Also utilizes are Micro Speed Valve (M.S.V.) to improve low-speed damping curve. Includes upper mounts as well (camber adjustable for front).

SUPER RACING (DSQ54-81LS1)– 2-way damping adjustable setup for dedicated track cars, suitable for cars with R-compound or softer tires. Lightweight (full aluminum rear damper assembly), and included duralumin upper mounts (camber & caster adjustable for front) and camber washers for front.

Hopefully this info helps. If not, you’re more than welcome to give us a call to discuss your suspension options!

2016+ Mazda Miata (ND chassis) Testing

This week we had a new ND chassis Miata in for testing. FINALLY, after well over a year, we have our hands on one and can now verify fitment and do road testing.

We must say that, even though we can technically just special order available kits from TEIN Japan, we’ve found that there is, what we feel, a better setup that we’ll soon be making for the U.S. market. With that said, we’ll be making some changes when we put forward our FLEX Z and MONO SPORT damper kits for this platform.

Fortunately the changes aren’t that drastic. So, if you are one of the customers that had special ordered something like our STREET FLEX coilovers for the ND, you are able to make the changes if you want them to be more like the U.S. spec we’re planning to release (for the newer FLEX Z application).

Ride height drop, per our recommendations, is approximately -40mm lower front and rear.

Spring rates for the FLEX Z (U.S. spec) will be 6kg/mm front, 4kg/mm rear.

Spring rates for the MONO SPORT will be 7kg/mm front, 5kg/mm rear.

 

 

2018 Toyota Camry Pace Car

Once again, we’ve been given the opportunity to work closely with the guys at Toyota Motorsports as they build the brand new, redesigned Toyota Camry set to be released this Summer.

As we have done in the past few years, we’ve helped them develop suspension for the pace cars being used at NASCAR events nationwide. Fortunately, modifications to these pace cars are relatively limited. And that’s perfect for us, since we don’t really try to do anything that requires major modifications.

In the past, we’ve made the pace car suspensions modeled after our SUPER STREET line of suspension. While, for some, this setup may not seem like an ideal suspension for a car that has to be driven at relatively high speeds around either a large oval track or road course, they can more than suffice to the task if set up properly.

The specifications that the guys at Toyota Motorsports ask for are far from being something we’d normally offer for a street-driven car, which most of our customers are looking for. For the 2018 Camry, they need a really stiff setup. To that end, we’re using 14kg/mm front springs and 12kg/mm rear springs.

For the past few Camry platforms, we’ve been able to make a coilover kit that uses the factory upper mounts. However, for the 2018 Camry, we’re utilizing camber adjustable front mounts.

Since the rear is no longer a strut type suspension (now using a more commonplace separate spring and damper combination), the rear damper has a OEM style upper mount while the rear has an adjustable base for dialing in ride height.

Once our in-house engineer was able to get measurements on the new Camry, he contacted the engineers at TEIN Japan’s Specialized Damper division and had them carry on with the design and manufacture of the suspension. Within two weeks time, we had a pair of suspension kits air freighted to TEIN USA.

Now we’re off to Toyota Motorsports’ Torrance HQ to do our test fitment. Then it’s up to the guys to finish the pace car build and take it out to the track for assessment!

2016 Continental Tire Show Car Shootout

Typically following the SEMA Show in Las Vegas is a few race events that we look forward to. One of them is Global Time Attack’s Super Lap Battle at Buttonwillow Raceway Park. The second one, one which we weren’t too familiar with, was the Continental Tires Show Car Shootout, which was run by Super Street Magazine. All we did know was that our friends at Sportcar Motion were bringing their K24 powered Honda S2000 to the event.

2016-continental-tire-show-car-shootout-sportcar-motion-s2000-3

This S2000 is one of Loi Song’s, owner of Sportcar Motion, personal vehicles. When he picked up a set of our MONO SPORT coilovers for this car, we thought it was basically just one of his street cars, something to drive to and from work. Eventually, this ended up becoming yet another track car to the many in his stable, with a built K24 motor replacing the F22 usually sitting in the engine bay. Other than that change, the car looks like many tuned S2000’s you’ll find on the street or at the occassional track day.

2016-continental-tire-show-car-shootout-sportcar-motion-s2000

Super Street finally published the results of this event, which included a dyno session then a track day at Streets of Willow at Willowsprings Raceway. End result- last in power on the dyno (235hp/193lb-ft), third (among 10 competitors) around the track with a 1:24.619 lap. Hmmmm. Interesting result considering field this car was competing against. The fastest car of the day was a BMW 135i with a v8 swap (unspecified engine, unspecified power). That car did a 1:23.327. Second place was an Acura NSX which was also near the bottom in power (321hp/238lb-ft) and stopping the timer at 1:23.786. Other cars in the field included an R32 Skyline, another AP2 S2000, 370Z, Hyundai Genesis Coupe, GRF Sti, and a pair of CZ4A Evo’s. Not a bad field.

2016-continental-tire-show-car-shootout-sportcar-motion-s2000-2

Goes to show that power isn’t the only part of the race car equation to consider. It’s a balance of well-tuned suspension (which I might add is an out-of-the-box setup), mild aero front and rear, good tires (Continental UHP ExtremeContact Sport tires were used on all cars for this event) and brakes. This all has to work together well. So, for a “show car”, nice job, Sportcar Motion!!!!

2016-continental-tire-show-car-shootout-drivers

 

Read more about the Super Street hosted event here.

Basic Suspension Maintenance Time!

Have you been inspecting your suspension periodically? No?? Why not???

Just like most other aspects of your vehicle, an inspection of your suspension should be done. We typically like to inspect all suspension components, not just coilovers, during every oil change (every 5,000 miles). Suspension, and not just the shock absorbers, have quite a bit of components that will wear out over time. In the case of our adjustable suspension, there’s also the factor of more movable components that need to be inspected and tightened to specification.

DSC00364

It’s not uncommon for us to get calls about noise that customers are getting from their suspension, only to find that the noise isn’t related to our coilover, but something like a worn control arm bushing, worn sway bar end link, worn ball joint, or even factory upper mounts with worn rubber components (which, I’m sorry but, we do not sell OEM components).

 

When it comes to inspecting our coilovers, it is a good idea to inspect items like the spring seats and seat locks. Make sure these are still torqued to specification, following our owner’s manual included with your coilover kit.

 

****************************************************************************************************************************************
Prior to continuing, we must note that we highly recommend that a technician/mechanic perform such maintenance work. Should you choose to do any installation or maintenance work yourself, please do so at your own discretion. The following is simply information regarding our coilovers and for reference only.

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project supra seat lock

Seat locks that adjust the spring height/preload should be torqued to 42lbs-ft (+/- 2lbs-ft).

Seat locks for MacPherson strut types (that lock the lower bracket to the shock body) should be torqued to 101lbs-ft (+/- 3lbs-ft).

Seat locks for multi-link setups (that lock the lower bracket to the shock body) should be torqued to 51lbs-ft (+/- 2lbs-ft).

Seat locks for H.A.S. designs (height adjust systems, where the spring is separate from the shock) should be torqued to 42lbs-ft (+/- 2lbs-ft).

Other components to inspect on our coilovers are items like the dust boot, bump stop, and (if applicable) rubber spring seats.  Some older models of TEIN suspension use a rubber spring seat between the seat lock and spring. This can start to crack over time. If so, get a replacement, or upgrade to the newer spring seat design that does without this rubber spring seat.

If you have our pillowball mount or upper mount included with your coilovers, also check to make sure all components are tightened down properly.

IMG_0117 (Custom)

Some upper mounts included with our kit have a few components that need to be inspected, especially MacPherson strut type designs that have camber adjustability. The cap screws that allow you to slide the pillowball mount for camber must be tightened down to 14 lbs-ft. The flange nuts that secure the upper mount to the strut tower vary by manufacturer, but those never really require anything more than 20 lbs-ft.

Also, coilovers that include our own upper mount may include our own pillow nut. It’s essentially a collared nut that keeps the piston shaft centered in the pillowball. The collared portion will go into the pillowball itself as you tighten. For front strut type designs, this should be torqued to 45lbs-ft, while rears that are not strut type design (like a multilink setup) require 20lbs-ft.

As to torque values for securing our coilover to the lower control arms, you should reference the factory values of the vehicle manufacturer. These can be sourced online through a quick search, or through automotive forums for your specific vehicle (which should be easy to find).

For front strut type coilover applications that reuse the OEM upper mount assembly, it would also be wise to make sure the strut assembly can rotate freely from left to right. Since the car needs to steer, the OEM upper mount has a bearing that allows the strut assembly to rotate with the knuckle assembly whenever you do steer. In some cases, the bearing can be worn and cause a grinding type sound.

Let’s say you’ve done all this basic maintenance, buttoned everything up, and now going for a drive. Maybe you noticed some squeaking noises. Have you checked your control arm and sway bar bushings?

In many cases, bushings are difficult to inspect. Sometimes their placement makes it very hard to see. You may even need to drop an arm just to be able to get a good look at the bushing. Fortunately, most rubber bushings last pretty long and typically only need to be inspected every 3ok miles or so.

 

When rubber bushings do go bad, they start to crack and as they pivot, they will squeak. Rubber bushings aren’t like many of the polyurethane, or even Delrin type bushings (highly inadvisable for street use), that are free pivoting. Most rubber bushings have a steel outer shell and a steel inner shell or tube, which are bonded because of the rubber. So that means that as the control arm pivots around its axis, the rubber has to stretch and compress. Eventually, as a rubber bushing dries out, it will start to tear itself apart, and that is what creates noises.

IMG_0847 (Large)revised

Replacing an old, worn rubber trailing arm bushing with a free pivoting polyurethane bushing. As you can see here, the trunnion wasn’t even attached to the bushing anymore. The rubber completely broke off. Fortunately, the trunnion’s placement prevented the arm from completely being loose and dropping out of position. Still, that can cause major damage to the underside of your car, and even cause erratic handling.

IMG_0948 (Large)revised

Freshly inserted trailing arm bushing with the trunnion cleaned of old rubber and reinserted into the new bushing. Because the trunnion is now able to pivot freely, it must be inspected frequently and lubricated to prevent the bushing from drying out. Otherwise, it will start to crack and create creaking or squeaking noises while driving.

Some notes about polyurethane bushings:

Polyurethane bushings, which are very common in aftermarket performance, have some distinctions that make them a likely upgrade for most consumers. Poly bushings, even though offered in various durometers (hardness), have better NVH characteristics than rubber bushings. And, because many of them are much harder than rubber, they don’t deflect as much under load, contributing to better maintained wheel alignment. When they do deflect, they tend to have better memory and can return to shape much more consistently.

00a6e_1s (Small)

TEIN Polyurethane Control Arm Bushings for GRB Subaru. These require a special type of lubricant (included with the kit) to prevent them from drying out.

However, polyurethane can also dry out. And there’s a special grease that’s needed for periodic maintenance, which most aftermarket bushing manufacturers either provide or sell their proprietary grease.

IMG_0892

So, periodically inspect your bushings since they are just as critical for a properly operating suspension.

Having a great handling car is obviously very fun, but it still requires upkeep to maintain that great performance you expect out of it.

 

Global Time Attack’s Super Lap Battle 2016

This week is the Super Lap Battle Time Attack event at Buttonwillow Raceway Park, hosted by Global Time Attack.

Damn, that’s a mouthful to say…

Anyhow, we’ve continued to attend the event for the past 6 consecutive years now. Our main purpose is to check out how the event goes, see how it has grown, and also to assist any teams/drivers that are using TEIN suspension.

For the most part, most teams/drivers are pretty experienced with their setup. So it’s not like we’re trying to rearrange everything they’ve setup and working for them. We just want to see how we can extract a bit more performance with a little bit of tuning. We bring one of our in-house engineers to speak with the driver and get feedback on how the car feels. From that, we are able to make an assessment on whether any changes to the suspension should be made, or if some other aspect should be altered. Funny enough, tire pressures tend to be overlooked.

The past few years has really just left us looking like spectators, however. Again, most of the teams have their race cars sorted out. So there isn’t much for us to do except check out the progress of each session.

For this year, we really only know of two teams on TEIN-equipped cars competing. Evasive Motorsports is bringing their R35 GT-R to run in the Unlimited AWD class, and Sport Car Motion (SCM) has their DC2 Type R Integra in the Limited FWD class. Both teams using our Super Racing damper kits.

scm-itr

The SCM Type R has proven to be plenty fast, mainly because they know how to extract the most out of their Rotrex-charged K24 engine setup. [Not] oddly enough, their Super Racing dampers are completely off-the-shelf. No changes in valving, and spring rates are per our recommendation. We did a refresh on the dampers last year, but unfortunately the car couldn’t make the event. Considering this specific Super Racing kit was on the team’s previous EG Civic race car, and that it has just over 6 years of use, the dampers were due for a rebuild anyway. We look forward to seeing the Type R run again this week!

 

evs-gtr

Evasive Motorsports has only taken their GT-R, in its current iteration, to a couple of track days. Back when the car had the very basics (our Super Racing dampers, racing brake pads, upgraded wheels & tires), they were using our recommended setup. Now, with a slightly wider body and more aero additions, we’ve uprated their springs. Other than that, the Super Racing dampers have our 3-way units installed, but valving has been kept as out-of-the-box. Wheels are a bit larger now, and they’re using a much more sticky tire. On its maiden voyage in this setup at Buttonwillow, the car did something in the neighborhood of a 1:47.00 lap time. No time spent trying to fine tune anything, and that’s what they run……… Damn. We weren’t expecting something that quick for what is essentially a still very street-bound car with full interior, full amenities. While we would love to attribute this shockingly fast time to our dampers, the fact is that Evasive Motorsports aren’t any slouches when it comes to building a proper car for the track. We’ll see what else the team does to knock down a couple more seconds from the timer.

Other than those two cars, which would keep our engineer busy enough, we’ve yet to hear of anyone else that may need our assistance. But, as I mentioned, they probably don’t need our help……

 

……….. You know what,,,,, this is just starting to sound like an excuse for us to just go and watch some racing! Don’t tell my boss…

 

 

Corrosion Protection

Without a doubt, a huge hurdle we must face with our suspensions, other than properly tuning the dampers for a given application, is making sure it will last for many years. Of course being a wear & tear item, dampers don’t necessarily need to last forever. But that doesn’t stop us from trying to attain such a goal anyway.

Coatings, or paint, for that matter, have come a long way from a technological standpoint. The thin barrier that these coatings add to a surface turn an otherwise corrosion-susceptible item to a long lasting one. Over the decades, improvements in coating adhesion have made it an economical solution for many manufacturers, such as TEIN.

Customers have asked us before why we don’t adopt certain materials that are corrosion resistant off the bat, such as stainless steel. It’s not that we feel stainless steel isn’t a suitable material. Cost is a big factor. Rigidity is also a very important factor. We use high-strength steel because it’s cost-effective and provides a great structural base to build a suspension from. Like steel, stainless steel comes in various different alloy grades. For the most part, stainless steel is a great material. If we wanted to select the most appropriate stainless steel for a damper body, it would be fairly expensive to produce a coilover kit. There are cheaper alternatives of stainless that we can use, but make no mistake- stainless steel can still corrode (just not as easily). It may have stain resistance, as its name implies, but it will not be fully corrosion resistant.

The high-strength steel we use offers us great engineering freedom in trying to make as light a weight suspension without sacrificing a damper body’s needed rigidity. On applications like MacPherson strut designs, dampers not only have to endure stresses from compression and rebound cycles, they also have to endure side loading. Being an integral part of a strut suspension design (keeping the knuckle assembly in place requires a relatively robust design), it may prove to be difficult to build a lightweight steel strut assembly. However, our kits are quite a bit lighter than OEM suspension. High-strength steel is still our number one choice for such applications, and for a majority of our suspension kits because of this factor.

We do use aluminum for various components- spring seat locks, upper mounts, lower brackets, and of course damper bodies. Common grades of aluminum we use are 2017, 6061, and 7075. The key benefit is aluminum alloy’s lightweight and structural rigidity. But again, cost is a limiting factor in why we don’t apply it in every suspension kit. Also, making an aluminum bodied strut (MacPherson), even though still lightweight, would be extremely expensive. And yes, aluminum can corrode. We have to use anodizing to protect aluminum parts. However, these still require periodic maintenance and inspection to make sure there is no surface corrosion.

stbn-spring-seatrevised

So, all this talk about corrosion is probably making every suspension manufacturer sound bad. Not really. Quite obviously there are ways to extend the life of certain materials. We use advanced coatings and processes on our suspension components. Again, is that perfect? No. But it does at least give our products a long service life. To date, we’ve pioneered a 2-Layer/1-Bake powdercoating process that streamlines damper body coating and increases productivity for us. Typically, setting up a powdercoat process takes a lot of time, and baking (curing) of the powdercoat is a majority of that time.

POWDER PAINTING

Making sure our powdercoating adheres to the damper bodies properly, we have a few stages of surface treatment prior to the final powder paint being applied.

stbn rustrevisedIf we didn’t do surface treatment (Blast Treatment), the powder paint would easily chip and flake off the damper. All these steps produce a coating that holds up better to debris, which can easily get kicked up and flinging in the wheel well, easily damaging the damper body.

ZT coating has been one of our saving graces when it comes to corrosion protection. This provides us an ultra durable surface over our steel components that has both low friction and abrasion resistant properties, while also being lightweight.  It’s also a process we can’t give too many details on. It isn’t really a liquid paint, nor is it a powder paint. Also, unlike paints, ZT coating adheres evenly on our dampers, including threaded bodies. Typical painting on threads may cause excess paint to gather in the valleys of a thread, while the peaks of the threads are only thinly coated. ZT coating coats completely even. However, we’ve been able to perfect the process in-house further increasing productivity (rather than outsourcing). Due to its low-friction nature, ZT coating provides smooth seat lock adjustment year-round.

We previously used a chrome plating process for threaded bodies (we still do on very limited applications). However, being able to do our ZT coatings in-house means we can quickly turn around manufacturing and reduce our costs. We can now make ZT coating part of our approach to affordable and reliable performance suspension.

stbn ztrevised

Speaking of outsourcing, we do have to outsource for anodizing. That’s one of the few things we don’t do in-house.

Our goal, other than creating a high performing, long lasting suspension, is to provide an affordable suspension offering. High performance doesn’t have to be associated with high costs, which is what we want to prove. By attaining the ability to do a majority of our coating processes in-house, we’re able to apply a very important aspect towards creating reliable suspensions at very reasonable pricing.

All these extra measures in surface protection aren’t perfect. We can’t predict what type of circumstances our suspension will be subjected to, which is why we continually do research and development both in the lab and on the roads to improve our processes. With that said, we’re quite pleased with how our surface treatments have performed. Used not only on street-bound cars, we’ve applied these very techniques to racing applications, with rally racing being one of the most brutal on our suspension. Because of our continued developments, we know that newer methods for surface protection and corrosion resistance will make our current methods obsolete. However, we know we’re already putting out some of the best, long lasting suspension kits out into the market. As always, we’ll continue to pursue technical innovation and pass along our achievements to you, our valued customers.