OME MT64: OME's answer to Bilstein?
My FJ40 has sat atop ARB’s Old Man Emu suspension for over 20 years, and our HZJ75 Troop Carrier is equipped with it as well. OME leaf springs—selectable for varying permanent loads from stock to heavy-duty—improve on the ride offered by factory springs while offering more load-carrying ability. And OME’s twin-tube, low-pressure nitrogen-charged Nitrocharger shock absorbers—or dampers to use the technically correct term (not “dampener”)—have never failed us or shown signs of fade, even on day-after-day-long stretches of Australian corrugations.
So I am understandably an OME fan, and I pay attention to new developments. I wasn’t surprised when the company introduced their ultra-premium, internal-bypass, BP51 shock—it made sense to go head to head with such brands as Fox and Icon, with a shock that incorporated high-performance technology to better the Nitrocharger’s ride at low to moderate speeds while also bettering its high-amplitude damping. If the BP51 were available for our Troopy I would seriously consider spending the cash to upgrade.
I was surprised, however, to learn about OME’s new shock, the MT64 (MT64 referes to monotube construction and the shock’s stout 64mm diameter piston). I’ve watched in the past as companies diluted their product lines with so many choices that consumers simply gave up trying to understand the differences and switched to another brand. ARB descibes the MT64 as sitting between the Nitrocharger and BP51 in performance and price.
Hmm. I looked at the specs. Indeed the MT64 splits the difference in price. But is there really a need for a shock that is “halfway” between the two in performance? I looked at the construction, which is neither the twin-tube, low-pressure design of the Nitrocharger nor the internal-bypass (or any bypass at all) of the BP51, but a monotube, high-pressure gas-charged format. In its front strut configuration it offers adjustable ride height.
Then it hit me: The MT64 is OME’s alternative to Bilstein.
Bilstein shocks have long been a popular upgrade to factory shocks—they’re reasonably priced, offer definite performance gains, and carry a storied name to boot. The Bilstein 5100 is a common swap; more recently, the beefier 6112 front strut assembly has become the go-to shock for those with typically overloaded overland rigs.
Consider the MT64 front strut assembly alongside the 6112: Both are monotube, high-pressure gas-charged units with enlarged oil/gas capacity, a floating piston to contain the nitrogen gas, and adjustable ride height. For fans of high-pressure gas-charged shocks, the MT64 offers an obvious alternative to Bilstein. So how do they compare in terms of specifications?
The MT64’s piston is 64mm in diameter (it’s actually 63.5 but that’s not very catchy); the shaft is 22.2mm in diameter. The (monotube, remember) aluminum body is 71mm across.
The Bilstein 6112 has a 60mm piston and an 18mm shaft, in a steel body 67.3mm in diameter.
I see what you did there, OME. The MT64 is just a bit beefier in every dimension, a contrast that will play well in comparison tests—and likely on the trail as well. Visually, the MT64’s forged aluminum body caps also appear sturdier than those on the 6112. I liked the plastic guard over the shaft, which should help protect it from grit blasting (although not as well as the full cover on the Nitrocharger), and the natural rubber bushings rather than wear-prone heim joints.
There’s one other important difference: The MT64 is fully rebuildable; the Bilstein 6112 is not.
The MT64 is offered in both strut and standard configurations, so you can run the same basic shock on strut or conventional front suspensions, and the rear as well. The Bilstein 6112 is only offered as a strut assembly for front suspensions; for rear shocks most will choose either Bilstein’s B8 5100, a significantly smaller unit with a 14mm shaft and a 46mm piston, or the B8 5160, essentially the 5100 with the advantage of a remote reservoir.
Perhaps what is more important than the differences between these two shocks is what they share in common: their target audience.
High-pressure gas-charged shocks such as these and similar models are marketed toward those who want more of a sporting—i.e. firmer—initial response in ride and handling, compared to a typical twin-tube, low-pressure design. Advertising descriptions usually include references to “spirited” driving, and promo videos rarely fail to show at least a few scenes with two if not all four wheels in the air. It is, sadly, a typical approach: Manufacturers make lots of noise about “treading lightly” while overtly encouraging just the opposite.
Not too long ago I watched a (very well-filmed) video about a group of guys playing Ivan Stewart with several overland-kitted vehicles on a (public) dirt road in Baja—a route I know well. Lots of whooping and flying gravel, and inset frames boasting their current speed. One of them finally managed to stuff his friend’s Jeep Gladiator into the desert and fold the chassis into a notable inverted V. Incredibly, rather than slinking home and considering a different approach to traveling in a foreign country, they went right on partying as if this were an unfortunate but completely normal contingency for a bro excursion. Sadly, this video—and the attitude—is far from unique.
Sorry, where was I? Right: If you travel like I do, with mechanical sympathy for your vehicle uppermost in your mind, enjoyment of your surroundings second, and preservation of the environment and the trail a close third, you don’t need shocks that can shrug off repeated jumps. If you prefer the slightly sharper on-road handling high-pressure gas shocks provide, that’s great. But for comfortable, reliable, long-distance travel, a well-built twin-tube shock such as the OME Nitrocharger, properly specced to your constant load, will serve you well. If you want a more sophisticated ride, as well as the ability to adjust both compression and rebound damping—and you have the funds—then by all means spring for the superb BP51.