Adjusting Damping on a TEIN Coilover

Just a quick reminder to those who are new to our adjustable suspension, specifically regarding damping setting (soft to stiff, and vice versa).

With the exception of some racing kits like our N1 dampers or Gr.N rally dampers, our damping adjustable kits are 16-way adjustable, or 16 usable settings, if that’s easier to understand.

Our adjustment knob for damping.

Our adjustment knob for damping.

Now, we get plenty of calls about customers who have 27 or 30-way adjustable damping. If you don’t have an N1 or Gr.N damper kit, then please pay attention- there are only 16 usable damping settings.

Yes, the adjustment knob may have more than 16 detents as you turn the knob, but we advise you not to exceed the 16th click (counter clockwise, if you’re staring directly at the knob).

If you're staring at the adjustment knob, clockwise is stiff, and counter clockwise is soft.

If you’re staring at the adjustment knob, clockwise is stiff, and counter clockwise is soft.

So, to find out what click setting you’re on, count the number of clicks while turning the knob clockwise until it stops. That figure will be what damping setting you’re at. If you counted more than 16 clicks, you were well past any usable damping setting our kit was designed with. So, now that you’ve turned the knob clockwise until it stops, you’re now at our 0 (zero) click setting, which is the stiffest setting. Simply turn the knob counter clockwise until you find the setting you prefer (again do not exceed 16 clicks).

Why we ask you not to exceed the 16 click setting- it does not offer any benefit or additional change in damping force. In fact, leaving the setting somewhere past the 16th click can cause damage to the needle valve’s setting. So don’t do it.

You may be wondering- “Why would we have an adjuster with more that 16 click settings if knob can easily surpass the 16th click?” Good question. We use the same click knob on our race coilovers, such as the aforementioned N1 and Gr.N damper kits. It was more cost-effective for us to create a click knob that we can use across all models of our damping adjustable suspension, so we simply applied this same knob to our SUPER STREET, STREET ADVANCE/STREET ADVANCE Z, Type FLEX/STREET FLEX/FLEX Z, MONO FLEX/MONO SPORT, SUPER RACING, and several other coilovers that have 16 usable damping settings.

From our owner’s manual:

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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.

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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.

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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.

New TEIN Magnetic Cell Phone Holder

Brand new from us is our Magnetic Cell Phone Holder!

While this might sound like an item that doesn’t or shouldn’t relate to TEIN, first off, it’s just a nice accessory to have!

Second, if you’re already familiar with the Defi Smart Adapter W product we distribute, an item compatible with smartphones (and tablets) and turns them into a fully functional gauge cluster, one issue many of you might have is how to mount your cell phone to be able to effectively use the Smart Adapter W app while driving.

So, this simply offers you a solution to mount your phone in a location that makes it easily accessible. And, of course, if you use your smartphone for GPS/Navigation (which most all smartphones have the capability), this makes it easy to see the map on your phone while you drive.

Included with the Cell Phone Holder is two sizes of steel backing plates to be mounted to your phone’s backside. From there, it’s a simple as mounting the magnet onto your A/C vent and sticking your phone right to the magnet. Easy!

*It works great on smartphones, but most tablets are too heavy and the magnet may not be strong enough to hold such weight.

For $14 (MSRP), it’s nice addition into making your drive much more comfortable and enjoyable!

Part number: TN029-002

 

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Here’s what’s included with the Magnetic Cell Phone Holder

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Small steel backing plate on an iPhone 6S Plus

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Large steel backing plate on an iPhone 6S Plus

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Now it’s easy to have your smartphone mounted and within eye’s view while driving!