JTRNA is reopening for aftermarket sales as of 9/15/2020, after shutting down 6 months ago due to COVID19. Sales of aftermarket models through the website will resume at that time.
Product will come back into stock as it becomes available; some of the more popular items (such as the T-2R for the Ford 8.8 or the model for the Dana 35 SLA) may not be available for several weeks as we catch up to product demands.
Check back for updates!
Ford Motor Company announced the addition of the Torsen differential to the new 2021 F-150 Tremor off-road model.
The Tremor, a sort of goldilocks level offroad package that offers more capability than the FX4 but at a lower price than the full-tilt Raptor model, adds a lift, 33″ tires, specific shocks and springs and other offroad goodies to the trim level. It also borrows some of the Raptor’s better drivetrain bits, including the Torsen for the 8.8″ front axle.
See Ford’s official release here:
JTEKT Torsen North America, Inc will be closed for the holidays starting on December 23rd. We will be back open again on January 4th, 2021. Any orders, inquiries and tech calls that come in during that time will be addressed when we get back. Happy holidays!
From all of us at JTEKT Torsen to all you out there, we wish you happy holidays and seasons greetings! We look forward to 2021!
Dearborn, MI – The Ford Mustang has used Torsen® differentials in select Mustang models since the 2012 model year. This was no different for the 2015 S550 Mustang. The inclusion of a Torsen T-2R in the Performance Package option helped the GT model reach its true potential. Additionally, when the GT-350 was rolled out shortly thereafter, it came with its own Torsen Type-2 as standard.
With the introduction of the updated Mustang for 2018, Ford has elected to spread out the availability of the Torsen differential a bit. It was once limited only to manual transmission cars only. For 2018, however, the GT Performance Package option has been extended to cars equipped with Ford’s new 10-speed automatic transmission – paired now with 3.55:1 axle gears.
At the same time, Ford has also seen fit to further extend Torsen to the four-cylinder turbo models as well. The EcoBoost® Performance Package now includes the use of a Torsen differential as well, for both manual and automatic transmission versions of the car.
So, for Mustang buyers, there are two engine choices, two transmission choices, but one Torsen. The Mustang’s Torsen is now available in coupe or convertible, manual or automatic, V8 or Turbo-4. No matter what road you take, Torsen will get you there!
EcoBoost® is a registered trademark of Ford Motor Company.
SEMA is now behind us, everyone made it home intact, everything has been unpacked and all of the pictures collected. What seems like a fairly simple thing – going to a trade show – takes on a huge level of complexity when the show is one the size of SEMA. If you happened to come ’round to booth 35197, upstairs in the South Hall, this is what you’d have found:
We try to bring a cross section of staff to the attend the show, so that our employees can better understand the market – and our customers. We had staff from sales, manufacturing, engineering as well as quality control with us at the booth. Everyone brings their own experience and area of expertise, which better allows us to answer questions. The cut-away display model (center) contained a working, powered Torsen T-2R that really drives home how these devises work.
During our time at SEMA, we spoke with buyers, media, distributors, chassis builders, installers, and most importantly, end customers. We spoke with hundreds of people over the course of the week, answered all sorts of questions, and listened to what customers are asking for (9″ Ford anyone? – more to come on that later). And we took in as much of the show as possible. Quality Manager Kim conducts a spot check of Torsen performance in the Fox Shox Raptor:
Rick & Sean nearly disappear into the blue:
Ford Performance had Torsen differentials on display as well:
Of course, it wasn’t all business. The Torsen group at Caesar’s Palace:
Dessert overload at Serendipity 3:
Some assorted pictures from the show:
Seriously, where else can you find such a variety of different types of hot rods, custom cars, race cars, rats, off road monsters, vintage vehicles, and just downright bizarre and unique vehicles all in one place? SEMA truly is a unique experience. And a parting shot – leaving Las Vegas behind, till next year:
Photos: Rick Barnes, Kim Gebo
Part1
As you might imagine, a very commonly asked question around these parts is: how does a Torsen® differential work? While this might seem like something that ought to be in the FAQ (which touches on it), there really isn’t enough space there to delve too deep into the topic. But I did say this was going to be the “simple” version, right? That’s true, but mostly because I’m not going to get into the math behind it. But stay with me – it’ll make sense.
The Basics
You may have assumed that understanding a helical gear differential is inherently difficult. Fundamentally, however, the basic principle is really quite simple. Many of the people that I’ve spoken with are so convinced that it is above their head, that they blind themselves to the simplicity. The important thing to understand is this: it is a friction device. There is a lot of stuff on the internet talking about worm wheels and back driving, etc. You should ignore all of that. In actual practice, it does not come into play. Instead, friction is what is important.
For any type of limited slip differential (LSD), the basic intent is to generate internal friction. This is true whether it uses a helical gear design, clutch plates, even a g-rotor pump. It is friction within the differential that limits wheel spin. It does the actual limiting that the term “Limited Slip” refers to. Friction is also why the differential can allow more torque to transfer to the tire with better traction. By providing spin resistance to one tire, the other tire can receive more drive torque than it otherwise could. Thus, more torque goes to the higher traction tire. It’s just friction – that’s all.
The Challenge
This does lead to an interesting situation though. It means that we’re trying to create friction – on purpose – while we’re trying to reduce it from every other part of the driveline. An LSD is typically the only oil-lubricated part of a car that is intentionally trying to create friction. Keep in mind that the differential exists in a system with other components, such as the ring & pinion gearing and various axle bearings. These other parts require proper lubrication to survive. As a result, having suitable lubrication that reduces friction for those parts is important. So, choosing the correct lubricant for the system is important.
This adds to the challenge of generating enough friction within the differential to do what it needs to do. Recently, vehicle manufacturers started developing even lower-friction lubricants, making it especially challenging. That means that these sorts of lubricants will further reduce differential limited slip performance, sometimes referred to as “locking effect”. Differential designers have to make up the difference in other ways. In a Torsen, that usually comes from adjusting gear geometry in the design phase. Sometimes, adjusting the thrust washers to suit helps. But, at the end of the day, all the designer is trying to do is create and manage friction in a useful way. That’s pretty basic, isn’t it?
Part2
So, if all limited slip differentials work by creating friction, what makes them different? That’s a good question, and is the key to what sets Torsen® apart. Yes, as we said before, all LSDs generate friction. But not all do so in the same manner or to the same extent.
A typical, basic, clutch style LSD uses a set of clutch plates between the side gears and differential case to make friction. Normally, the load on the clutches comes from a preloading spring, placed between the gears. This type of product is fairly easy to build and is inexpensive. However, in most cases the amount of friction they create is fairly low. Also, the amount of friction is constant, changing very little over the range of conditions the vehicle operates in.
That means at high and low speed, straight or turning, the clutch plate differential always behaves the same – for better or for worse. This fixed friction amount – which helps reduce tire slip when accelerating – hinders turning the car into a tight parking space. The chassis has to overcome the binding this friction causes, making maneuvering the car tougher. In poor weather or slippery conditions, this can be especially true.
On the other hand, a helical gear limited slip differential – like Torsen® – does not rely on clutch plates*. Instead, the helical gears themselves generate friction. When a helical gear receives a torque load, that torque creates thrust forces that want to push the gear in an axial direction. When you mesh several of these gears together with a torque load on them, it creates mesh separation forces which try to push them apart, away from each. If you then contain all those gears inside a fixed, rigid casing (to prevent them from sliding or pushing apart) the result is friction between those gears and casing on the surfaces where they meet. As more torque applied, the greater the forces become, resulting in a greater the amount of friction.
*(It is true that older versions of the T-2R product used a multiplate arrangement to enhance TBR performance. They were not, however, typical clutches. These models used hardened steel plates that provided more surface area for spreading the axial thrust forces over. These plates have no friction lining, like a typical clutch plate has.)
There is a certain elegance to this; friction is generated proportionally to the magnitude of load applied. Under high load – when accelerating out of a corner on a race track or on a highway entrance ramp – the differential offers a lot wheel spin resistance. This allows the driver to put a lot of torque to the tires and really get the car moving. Additionally, under very high load situations like this, the Torsen® will actually maximize the traction of the inside tire and put all extra torque to the outside tire.
This not only provides optimal traction, but also helps drive the car around the curve by inducing an understeer-canceling, positive yaw moment about the car. You’ll actually be able to feel the Torsen help propel the car through the turn. But, under low load – pulling into your driveway or into a parking spot on an icy lot – the differential offers little resistance and will differentiate freely. This allows the car to maneuver easily, making for better balance behavior characteristics and a car that is more driver-friendly. On the other hand, clutch-type LSDs can become difficult to maneuver in this situation. These benefits allow the Torsen to be as much of handling aide as it is a traction aide.
The development of the Equvex II gear design helps set Torsen® even further apart, featured in second generation T-2R models. Equvex II employs a technology we refer to as Split Gear. A true helical gear design, this allows the differential’s locking characteristics to be easily reconfigured. Previously, once a helical gear differential was designed, its properties were fixed. Aside from playing with lubricant to affect change in the locking performance, there was nothing you could to change it if requirements changed. You had to start over, from the gearing up because once the basic geometry changed, the casing had change as well. If you had significant investment in tooling to produce the product, that was too bad, because you’d have to retool it all over again.
Enter the Equvex II & Split Gear. With Split Gear technology, the side gears are comprised of two concentric pieces. A spline joins these pieces. This allows more efficient use of the differential’s friction surfaces. An existing design can be re-tuned without any significant retooling, just by changing the helix angle on that spline. This allows us to offer multiple levels of performance of a common product family. This allows costs to be spread out, since the expensive tooling is shared. This gear design, frankly, offers an unparalleled level of design flexibility that no one else in the industry can match. And we offer it to aftermarket customers as well as OEMs.
Equvex II gears with Split Gear Technology
All new and upcoming T-2R models will make use of Equvex II gearing. That allows us to tailor the TBR to the needs of that specific application, instead of applying a one-size-fits-all method of enhancing performance. Existing designs will retain the previous multiplate arrangement. When stock is depleted for these older models, a revised design will be introduced. And although Split Gear is just arriving on the aftermarket scene, it has become proven technology. When it was introduced for 2012, the Ford Mustang Boss 302 was the first to use this design . GM also adopted the Split Gear design for the late mode Camaro Z/28. Today, the Mustang GT with Performance Pack option continues to employ a Torsen T-2R with Equvex II gearing.
Indianapolis, IN – Ford Performance announced the next Mustang race car on Thursday, adding to the list of high performance and track cars that use Torsen. The FP350S was unveiled at the PRI show to a large crowd. The track-only car replaces the previous Boss 302S as Ford Performance’s turn-key, ready to run race car for SCCA & Trans Am competition. More information is available at Ford Performance: https://performanceparts.ford.com/PRI/#FP350S
Photo: Rick Barnes