Dodge, Ford, Jeep Death Wobble Explained
You’ve just picked up a load of landscape gravel. As you make your way home on the highway your Ram 2500 is approaching a railroad crossing on a gently sweeping curve. The planets have just aligned and you are about to experience Death Wobble. The condition of your tires, suspension, and steering have also aligned, producing the perfect blend of sloppiness to induce this dreaded malady. Then it happens. Immediately after encountering the railroad tracks your steering wheel becomes a convulsing nightmare and the stick shift shudders wildly as the entire front of the truck shakes with evil intent. You slow down safely, changing the resonant frequency of the events, and the trembling ceases.
Death Wobble is not a good place to be. It not only challenges your control of the vehicle, it damages tires and suspension components. To be fully up-front, Death Wobble can be an issue in any truck with a solid front axle setup. Surf the internet and Jeep Wranglers and Dodge Ram pickups are the leading wobblers, but big Fords feel the effects too. Jeep Wranglers from YJ to JK and Cherokee XJ and beyond are susceptible. On the pickup side, the condition seems to be an inherent issue in first- and second-generation 2500 and 3500 Rams produced from 1994 to 2008 while the Blue Oval crew is mostly concerned about 2005 to 2019 F250s and F350s.
Anatomy Of A Solid-Axle Steering System
The accompanying diagram will help you better understand where the steering components we will be talking about are located. The schematic is a 1994 to 2008 Dodge Ram pickup setup. Short of the placement of the steering stabilizer and shape of the track bar it is representative of any solid-axle design.
What Causes Death Wobble
This phenomenon is a convergence of worn components that sparks a chain reaction that leads to Death Wobble. There can be one worn part that causes it or a combination of parts at different stages of wear. With so many contributing factors, nailing down the root cause of Death Wobble can be difficult.
Solid axle designs move the front wheels in tandem where in an independent setup the motion is more isolated between the wheels. Something as inane as the aforementioned railroad crossing, an expansion joint of a bridge, even a healthy pot-hole can lead to that first domino falling. Death Wobble often happens when the vehicle is travelling at highway speeds and some manner of steering input being applied. The transfer of motion in solid axle trucks from impacting a road irregularity creates a positive feedback loop that results in Death Wobble. Beyond vehicle control issues, the shaking can damage tires, the sector shaft in steering boxes, tie rods, bushings, wheel bearings, and it often hammers the ball joints.
Poorly installed or low-quality lift kits can be a harbinger of Death Wobble. They wreak havoc with steering angles which amplifies the effects of wear on key Death Wobble culprits in the steering system. Big tire upgrades put additional stress on steering system bushings and joints. How you’re using your rig can also change the conditions that lead to Death Wobble. Hauling or towing can also swing the pendulum in favor of Death Wobble because the added cargo load or heaviness of the trailer transfers weight to the rear of the truck, unloading the front suspension. The light front end is more susceptible to the wobble.
The Prime Suspects
Death Wobble is a tough nut to crack. It can have a singular cause or be the combination of a number of worn parts reaching a critical threshold, even loose bolts in the steering system can cause the phenomenon. Compromises in the following components can set stage. The bottom line here: sloppy steering and suspension tolerances open the door to Death Wobble.
Track Bar
The track bar is a popular bad actor when it comes to Death Wobble. It’s the universal first part to check for Jeeps, heavy duty Ram and Ford pickups, and any solid axle truck that shows signs of the wobble. We’re taking about the track bar bushing itself as well as the bolt that secures it. The breakdown of the bushing can lead to movement, altered steering angles, and vibration. In Jeeps and Rams, the bolt that attaches the upper track bar (gray arrow) can loosen and, over time, cause the hole in the mount to become oblong which leads to excessive play in the steering. Check the hole for roundness and the bolt for tightness (Jeeps require 125 ft-lbs of torque) and consider replacing the bolt for a higher-grade bolt that can be torqued more. Lifted rigs will have a relocation bracket to keep the geometry in spec. The brackets are another possible point of failure. Improper installation can cause the bracket to become an unwanted pivot point or poor quality will result in a bracket that’s prone to bending… all which will change steering geometry and invite oscillation. 
On the Ford side, the inner track bar bolt is heavier duty and not prone to bolt movement issues. The outer track bar tie rod ends are suspect. In 2005 to 2016 trucks Ford used a pressed-in joint. 2017-and up trucks have the tie rod end built into the track bar. Deflection is this area ranks high on the cause-and-effect list for big Blue Oval trucks. Tech Tip: To diagnose Death Wobble within the entire steering system have someone crank on the steering wheel, dry steering the system back and forth, and observe (with eyes and ears) the steering linkages and components to identify flex, deflection, and movement.
Ball Joints
Ailing ball joints are part of the Death Wobble puzzle. Practically doomed form the start, stock Jeep and Dodge Brothers ball joints have a nylon liner/insert that can compromise their performance. The nylon material is unable to stand up to high mileage not to mention the rigors of off-roading. In Dodge trucks the passenger side ball joints tend to show more wear. Tech Tip: The answer here is upgrading your Ram or Wrangler to heavy-duty Yukon ball joints. These ball joints are more rigid and built with superior 
materials to handle whatever you throw at them.
Ball joints are not as big a wear item on Fords because their design is better. They can come into play when addressing alignment as the joint rides in the caster shims. A Ford service bulletin calls for an increase in camber and these shims are a popular topic in forums. It’s difficult to diagnose shims as the problem but adding a little caster is known to help on newer Ford trucks that are experiencing Death Wobble. Tech Tip: To evaluate ball joint wear jack up the front of the vehicle and leverage the tire with a pry bar. Pry the tire in an up-and-down motion. If the tire moves beyond expected sidewall deflection and/or if you hear/feel and mild clunk, your ball joints are likely toast.
It should be noted that alignment is an overarching concern when it comes to Death Wobble. It sets a false foundation and magnifies the shortcomings of other components in the steering/suspension systems. It may be wise to check alignment as part of your Death Wobble troubleshooting regime.
Steering Linkage/Tie Rod Ends
Ram owners need to know their linkage. The type of track bar/steering linkage you have will impact your rig’s tendency to wobble. As always, the situation can be compounded by the use of larger tires and suspension lifts that put more stress on the steering system.
There are two linkage types: Y-Style and T-Style.
In a Y-Style, fitted on second- and third-gen Ram pickups, circa 1994 to 2008, the outer tie rod bolt is parallel to the ground and the steering bar bolts to the pitman arm. The problem with this setup is how toe changes as the suspension articulates, putting 
additional stress on bushings and accelerating tire wear. Tech Tip: The passenger side tie rod end is a known offender. Evidence of its guilt can be seen in more tire wear on the front passenger-side tire. Note: Fords can also suffer from worn tie rod ends.
T-style steering debuted in fourth-gen Ram pickups, 2009 to 2018. In this design the outer tie rod bolt is perpendicular to the ground and the pitman arm and steering bar attach via a clip (not bolted to the bar). Tech Tip: Swapping to this newer design is a great way to upgrade the system and take one Dodge/Jeep Death Wobble cause off the table.
The steering linkage, namely the steering stabilizer, has been touted as a leading cause of Death Wobble for Ford Super Duty owners. In fact, a service bulletin was issued for 2017 to 2019 F250 and F350s. While the stock stabilizer is cheap and not up to the task, replacement is often a temporary fix that masks the true cause of the wobble by better absorbing that first wave of vibration. Consequently, the condition often returns after a few months.
Steering Box
There are many different lines of thought when it comes to the cause-and-effect of Death Wobble. One of the more interesting theories on the Dodge side centers on the steering box and the role hydraulic pressure of the power steering plays in the Death Wobble drama. The worm gear in the box is hydraulically actuated via an inner spool valve and outer spool valve. When you work the steering wheel, these valves interact which opens the grooves between them. Hydraulic pressure enters via the grooves and the steering box turns the wheels by way of the torsion bar.
When the vehicle encounters train tracks, pot holes, expansion joints, or whatever the system’s loose tolerances allow the spool valve to release but there is still pressure trying to open the valve and steer the vehicle… setting off a repeating loop where the hydraulics bounce between turning one way and the other which makes the steering wheel shake from side to side. As mentioned earlier, Ram owners can swap to a fourth generation (2009-2018) steering system or an aftermarket steering box setup from Redhead, Moog, or Mopar to help alleviate this problem.
Tires & Shocks
We’re ending this dubious list with tires and shocks because they can be both a cause and effect of Death Wobble. Tire wear 
characteristics and sidewall stiffness are at issue here. Irregular wear in the form of cupping on the tread blocks factor most prominently. A lack of sidewall stiffness is only a factor if it adds to the sloppiness of the suspension/steering as a whole. Cupping is a distinct low spot in the middle of a tread block. In some cases, uneven wear at the edges of the tread block can also be problematic. Pronounced, uneven tire wear plays into a ramping effect that can progress into Death Wobble. Tech Tip: One way to diagnose the impact of your tires is to swap suspect front tires to the rear of the vehicle or install new/different tires and go for a test drive. Beyond that, pay close attention to tire pressure (front from side to side), check tire balance periodically, and consider rotating tires on an accelerated schedule. Blown shocks can impact tire wear, suspension performance, and steering and should also be monitored.
Shop Shocks Shop Suspension Lift Systems
Wobble-Spotting
This isn’t folklore. The NHTSA has issued a number of recalls addressing the matter on 2003 to 2008 Ram pickups. They include a recall of 700,000 vehicles for defective left tie rod assemblies, 242,780 vehicles for outer tie rod ball studs, and one for 1,500 trucks that have aftermarket pitman arms installed. There have also been class action lawsuits filed by vehicle owners regarding Death Wobble in 2018 to 2020 Wranglers and Gladiators and 2005 to 2019 Ford F250 and F350 Super Duty pickups.
While it may seem that Death Wobble happens all of a sudden there are some clues to be mindful of. The problem is the subtlety of the progression means the tight, on-center feel that inspires confidence fades slowly. It will start with steering slop, dead spots in the steering where you get a numb feeling from the wheel. This can progress to bump steer and then it’s game-on. Once Death Wobble starts it will become more intense and easier to induce.
Death Wobble is a tricky customer. It is the result of many worn parts creating the proper conditions. Part of the deception is how fixing one thing will make Death Wobble stop but what has actually happened is the threshold of where Death Wobble is initiated has been moved back. When one of the other component systems i.e. tires, shocks, ball joints, steering boxes, or track bar bushings wear further the threshold will be reached again and the shaking will return. The best practice solution is to use high-quality lift kits, install them properly, and keep a keen eye on the wear properties of all the systems listed here and maintain them religiously or replace them before the harrowing experience that is Death Wobble visits you.
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