Project BackgroundA standard Ramcharger drivetrain is stout, but can stand improvement for off-road use. Weaknesses of the standard drivetrain include u-joints held on with straps, typically high gear ratios, and open differentials. In this project, I have upgraded my stock, standard equipment drivetrain by addressing the open differentials and the high 3.21:1 gear ratios. I have done so on a vehicle that sees a lot of highway miles, often on its way to a fairly challenging off-road trail. Like many of those who post to the Dodge message board, I wait for the stock components to break before I upgrade. I almost never simply replace worn out parts on my truck - I upgrade. In this case, I was confronted with a common problem - how to decide when the thunderingly loud CLUNK of a Chrysler 9 1/4" axle changes from annoyance to potentially truck-stopping drivetrain failure. In my case, I was willing to drive the truck long distances even after the CLUNK reached the point where the entire frame of the truck shook when shifting into reverse. However, when a rhythmic clanking starting emanating from the rear axle while driving in reverse, I was ready to make some changes. Fortunately, both Auburn Gear and US Gear were willing to provide equipment for this project. Auburn makes an excellent limited slip differential for the Chrysler 9 1/4" axle. US Gear offers a long line of excellent products for off-road vehicles, including ring and pinion sets, axles, install kits, limited slip differentials, and differential internal kits. The object of the this drivetrain upgrade was to improve off-road performance while leaving the vehicle suitable for long highway trips. The prescription: a limited slip differential for the rear axle and an increase to a 3.55:1 ring and pinion gear ratio to compensate for the 31"X10.5"X15" tires which are compatible with the stock suspension height. This is a compromise ratio that allows the truck, which is not equipped with any sort of overdrive in the transmission, to cruise at speeds over 70 miles per hour (mph) without overrevving, while still having adequate low end grunt on the trail.. In a standard open differential when one wheel loses traction all of the torque is directed to that wheel, making it very easy to get stuck. A limited slip differential is a compromise traction aid. It preserves road manners while allowing both rear wheels to help out in a low traction situation by forcing some torque to be transferred from the wheel with no traction to the wheel with traction. It does this by utilizing internal clutch packs which limit the slippage between the two axle sides and thus the two wheels. The amount of torque transferred is dependent on the design of the unit and the spring loading in its internal clutch packs. The Auburn LSD is a much more aggressive unit that the standard Chrysler Sure-Grip LSD (also manufactured by Auburn), its higher spring loading means that it works better on the trail, but its road manners are much more affected. 
A complete setup would include a traction aid in the front axle. However, I still haven't decided which way to go in the front axle. The truck has an NP 203 part time transfer case, so the front axle typically isn't engaged other than when in low traction situations. This would allow the use of a simple mechanical locker in the front axle. However, in the off chance I find myself in four wheel drive in a blizzard trying to navigate a curve on a highway at speed, a mechanical locker in the front axle could prove quite harrowing. So, until I choose between a mechanical locker, an air locker, or an LSD for the front axle, this project will be limited to a ring and pinion swap and rebuild of the front axle. I would not recommend a differential rebuild as a do-it-yourself project. Setting up a differential is not rocket science, but it requires precision, and is not forgiving. As people say, you only set up a differential once. If you do it incorrectly, you will likely be replacing a lot of expensive parts when you try to set it up the second time. If you do decide to undertake the project yourself, US Gear does offer comprehensive installation instructions with every ring and pinion kit. In my case, I had Wes Mohr (Mohr Automotive) of Hutchinson, Kansas do the work in his shop. Wes and Dave allowed me to ask a lot of questions and take a lot of pictures while we rebuilt the axles. Rebuild of Chrysler 9 1/4" axle
While infamous for its clunking, the Chrysler 9 1/4" axle is also quite stout. My axle was a case in point. By the time I replaced it, it shook the entire frame when shifted into reverse, and the driveshaft could be rotated about 3/4 of a turn before encountering resistance. However, the axle never failed. Once disassembled, the cause of the problem was evident. The ring and pinion showed minimal wear, despite a lot of abuse. The play was all in the pinion bearings, which allowed significant forward and rear motion of the pinion. Despite the resulting enormous amount of backlash, the gears held up. Like many factory axles, the Chrysler 9 1/4" is a "C clip" axle. The axles are prevented from moving sideways by a C shaped clip inside the differential. While off-roaders prefer the strength of a collar and thrust bearing, Wes Mohr assured me that the C clips on this axle are amply strong. While replacing a ring and pinion, it is advisable to replace all other significant wear items in the differential. In this case, I replaced not only the ring and pinion, but also the axle shafts and the differential itself. So, we replaced both wheel bearings as well as the bearings associated with the differential. While I was at it, I also replaced the front universal joint in my rear drive shaft, which I had foolishly failed to inspect (it was metal on metal). The rebuild proceeds essentially as follows: Step 1: PreparationRaise the vehicle safely. Loosen the differential cover and drain the gear lube. Then remove and clean the differential cover. 
Step 2: Remove the Existing AxlesRemove both rear wheels and pull the drums. Remove the set bolt which holds the center pin in the differential case and remove the center pin. With the center pin removed, either axle can be moved slightly inboard revealing the C clip. Remove each C clip, and pull the axles outboard and remove them. Once removed, inspect the axle splines for wear. The splines on my axles were quite worn. 
Step 3: Remove the Existing DifferentialOnce the axles are removed, replace the center pin of the differential and the set bolt. Next remove the two bearing caps which hold the side bearing races in place. 
Removal of the differential case reveals one key advantage of some Chrysler axles. Instead of using shims to hold the differential side bearings in place, the Chrysler 9 1/4" axle makes use of threaded adjustment spacers. Movement of the spacers requires either painstaking movement using a probe through a small opening, or a special tool. Wes Mohr had made his own tool. It's basically a specially shaped nut which must be placed on the end of a long shaft.
The shaft is inserted along the axle housing and the special nut fits into the spacer. The spacer is rotated either direction to force the side bearings inboard or outboard. For removing the differential, both spacers are pulled outboard. The advantage which arises later is that backlash can be adjusted by rotating these spacers, instead of by using side bearing shims. Once the side bearing spacers are pulled back, the differential, along with its side bearings, can be pulled straight back out of the axle housing. In this case, since I neglected to purchase replacements, the ring bolts were removed even though the existing open differential was not to be reused. Step 4: Remove the PinionThe pinion is held in place by front and rear bearings, shims, and a crush washer while bolted to the driveshaft yoke. The pinion can be removed by removing the nut which holds it to the yoke. The pinion can then be forced back through the axle housing, and the bearing races can then be forced out. Step 5: Preparing the New DifferentialIdeally, the new differential (in this case, an Auburn LSD) is prepared by heating the new ring gear to 300 degrees farenheit. It is then mounted to the new differential case using twelve new ring bolts (which are reverse threaded). In this case, the existing bolts were used to mount the ring gear, without heat treatment (heat treatment would likely have removed the setup markings on the ring gear). Also, the ring bolts were not properly tightened in a crossing pattern. Unfortunately, many mechanics play fast and loose with impact wrenches. Having already imposed pretty significantly to take pictures for this article, I was reluctant to stop work to explain the importance of proper application of torque. If hiring a shop to rebuild a differential, you may want to personally oversee the work or discuss it with them beforehand if you want the work done properly. However, as annoying as corner cutting can be, it is seldom fatal to a project.  After preparing the differential, the pinion must be prepared. It is advisable to first put on only shims and the rear bearing until the desired setup is achieved. Step 6: Differential SetupDifferential setup involves adjusting the side and pinion bearings to produce the correct contact pattern between the pinion and ring gears. An incorrect pattern produces irregular wear on the gears and applies excess stress to the bearings. Setup must be done correctly, or irreparable harm will likely be done to the components before it can be re-set.  Differential setup can be described by dial indicator measurements from fixed reference points. However, in practice, it is best described by matching the contact pattern with that set at the factory for a matched ring and pinion set. US Gear marks both the numerical measurements as well as the contact pattern on the gear set. The contact pattern is shown with yellow paint. During setup, viscous blue liquid is brushed onto the ring gear and the ring and pinion are meshed, turning against some resistance in both directions (drive and coast). This motion produces a contact pattern in the blue on both the coast and drive sides of the ring gear. Comparison to standard photographs indicates whether the backlash needs to be increased or decreased to correct the pattern. When the pattern provided by the manufacturer matches that obtained with the blue, the setup is finished, and can be counted on to last. 
The adjustment of backlash is accomplished on the Chrysler 9 1/4" axle by adjusting the side bearing spacers. The backlash must be kept to within 8 to 10 thousandths of an inch while adjusting the contact pattern. Adding or removing shims between the pinion rear bearing and the pinion gear adjusts the contact pattern. The differential and pinion are assembled and the backlash is measured and the wear pattern is checked. If the wear pattern and backlash aren't acceptable, the differential and pinion are disassembled, shims are added or removed and the spacers moved, and the setup is checked again. This process is repeated until the setup is acceptable.
Once the setup is acceptable, the pinion is fully assembled, with the front bearing and crush washer, and the yoke is tightened into place.  Step 7: Installation of New Wheel BearingsOdds are, unless they were recently replaced, that your wheel bearings and seals could stand replacement. The bearings and seals are easily pulled with an appropriate tool. New bearings and seals can then be pressed into place. These wheel bearings are lubricated with the gear lube. Step 8: Installation of New Axle ShaftsUnless new lug bolts are being used, the old lug bolts must be pounded out of the old axle shafts and into the new shafts. Then, the shafts slide through the axle housing and in through the differential side bearings, with the splines lining up. Again, the set bolt and the center shaft must be removed from the differential to allow each axle in turn to move slightly inboard. Each C clip then slides easily back into place, and the differential case shaft and set bolt are replaced. Step 9: CompletionWith the new axle shafts in place, the differential cover can be replaced with a bead of permatex. It is important to remember that a modifier must be added to gear lube when a limited slip differential is used. Finally, the wheels are replaced and torqued. In this case, I did manage to hold back Dave with his impact wrench. I've had an aluminum wheel tear off my Ramcharger with my wife driving, and I highly recommend that anyone with aluminum wheels keep close tabs on the torque on their lug nuts. I've also had a bear of a time removing lug nuts after some joker with an impact wrench all but welded them to my lug bolts. Finally, the rear drive shaft can be bolted back into place. The standard Ramcharger setup uses bands. In my case, I changed my gear ratio in the rear axle, but not the front ratio. The speedometer gear and the front ring and pinion will be swapped in phase II of this project. I'm the only one who drives my truck, so I'm not overly worried about having two different ratios in my truck temporarily. However, I would suggest removing the front drive shaft if you're going to have different ratios in place for any length of time. |
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