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Part Details
TRQ suspension kits are manufactured using premium raw materials and coatings for extended service life. Each TRQ suspension component is designed to be a direct, maintenance-free replacement to the stock unit. To extend the life of your steering and suspension components, TRQ recommends replacing components in pairs, sets, or kits. All products are fit and road-tested in our Massachusetts R&D facility to ensure we deliver on our promise of Trusted Reliable Quality.
Product Features
Our direct fit gas-charged shock absorbers help restore your vehicle's handling and ride quality to just like new.
Install Tip: When replacing steering components, have a professional alignment performed afterwards. This ensures proper tracking and even tire wear.
Our steering and suspension components are pre-greased and sealed for long life and do not require the extra maintenance typically required by greaseable versions.
Item Condition:
New
Attention California Customers:
WARNING: This product can expose you to chemicals including Chromium (Hexavalent Compounds), which is known to the State of California to cause cancer, and birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov
Lifetime Warranty
This item is backed by our limited lifetime warranty. In the event that this item should fail due to manufacturing defects during intended use, we will replace the part free of charge. This warranty covers the cost of the part only.
FREE Shipping is standard on orders shipped to the lower 48 States (Contiguous United States). Standard shipping charges apply to Hawaii and Alaska.
Shipping is not available to a P.O. Box, APO/FPO/DPO addresses, US Territories, or Canada for this item.
Expedited is available on checkout to the United States, excluding Alaska, Hawaii.
Final shipping costs are available at checkout.
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Hi, I'm Mike from 1A Auto. We've been selling auto parts for over 30 years. We're dedicated to delivering quality auto parts, expert customer service, fast and free shipping, all backed by our 100% satisfaction guarantee. Visit us at 1AAuto.com, your trusted source for quality auto parts.
In this video, we are going to be working with our 2006 Chrysler 300. We're going to show you how to remove and replace the vehicle's outer tie rod or tie rod end. If you like this video please click subscribe. We have a ton more information on this and many other vehicles. If you need this part for your car, you can follow the link down in the description over to 1AAuto.com. Here are the items you will need for this repair.
Using a 21 millimeter socket and a breaker bar, loosen all of your lug nuts about one turn. Raise and support your vehicle. We are using a lift to make it easier to show you what's going on, but this job can easily be done at home with a jack and jack stand. Remove your lug nuts the rest of the way by hand. Remove your wheel and tire.
Using the 24 millimeter wrench – and we've soaked both our jam nut and the nut on the end of the tie rod in penetrating oil – break the jam nut loose. We don't want to move it too far, just enough that it's off the end of the tie rod.
Using the 21 millimeter socket and a breaker bar, crack the nut on the end of your tie rod loose. Once you get it loose enough you may be able to finish removing it with a socket and ratchet. Now if you are removing and replacing the outer tie rod, you can use a pickle fork here, which sits between the spindle and the ball joint and knocks it out as you tap the fork in. However, that damages the boot rendering the old outer tie rod useless. So, in the interest in saving parts, we're going to use a hammer and hit the side of the spindle with a taper of the ball joint end goes through and release it. Remove your tie rod and count the number of turns it takes to remove it. It was just about 21 turns. We'll want to make sure that we install the new tie rod end that same number of rotations.
Now you'll notice that there's a hex cut on the end of your inner tie rod here, which is actually designed for a wrench to hold it. However, most open end wrenches are fairly weak and with a really stuck nut like we have on the end of our inner tie rod here, it's going to be a lot safer and easier to grab it with a pair of vice grips and spin this off with a 24 millimeter. We'll mark this flat with a paint marker. You could also mark it with a sharp chisel or punch, really anything that's just going to give you an indication of when it reaches the 12:00 position again. Five. Be sure to keep the tie rod itself steady, because this does pivot and can change the number of counts you have on that 12:00 position. Twenty-five, 26, 27, 28. It's about 28.
Here we have our old tie rod end, which we removed from our vehicle and our new part from 1AAuto.com. As you can see there are some minor aesthetic differences such as where the square channel is here for you to remove this with a wrench if it were to be stuck on while you were trying to get off your inner tie rod, as well as having a grease fitting on this so you can service this and keep it greased, lubricated and in good shape for longer. They have the same tapered end and threads as well as a new nylon lock nut for our new part. The boots do look different, but this has been bolted down and collapsed and been on there for almost 100,000 miles now. This is what all the boots look like when they are new and after you install it will look closer to that. Your tie rod end, like most joints in your steering and suspension, is a ball and socket joint. You can see that this one is getting kind of tight. It looks like there might be some rust building up down into that joint or these can develop play in them, which will allow them to pop in and out or click side to side making your steering inaccurate and your alignment angles impossible to adjust causing tire wear and handling issues. If you need to replace your tie rod end, this new part from 1A Auto is going to go in direct fit just like your original equipment and fix you up right.
We're going to be replacing our old lock nut so we'll take our new one and just put a mark on one of the flats so we can count the same number of turns back on. Ours was just over 28. It's not going to matter if you're using the new one or the old one. We'll set that to about the 10:00 position, which is where mine came off. We'll count one, two, three, all the way up to 28.Now what we'll do is it was about 21 turns to get our tie rod on and again mine came off right around 9:00 or 10:00. We'll go ahead and get that going again and count 21 turns back on. Line up the stud on the end of your new tie rod end and insert it into your spindle.
Install your new nut. The new one is a 22 millimeter so we'll tighten that on with a 22 millimeter socket and ratchet. Torque the outer tie rod nut to 63 foot-pounds. Your new jam nut is 22 millimeter if you installed one, otherwise you'll use a 24 millimeter wrench and tighten it back down all the way against the tie rod end. Don't forget to grease the fitting until your boot swells, but does not break.
Reinstall your wheel and tire and get your 21 millimeter lug nuts as tight as you can by hand. Lower the partial weight of your vehicle back onto the tires. Torque your lug nuts to 110 foot-pounds in a cross pattern.
Thanks for watching. Visit us at 1AAuto.com for quality auto parts, fast and free shipping, and the best customer service in the industry.
Tools used
Hi, I'm Mike from 1AAuto. We've been selling auto parts for over 30 years! We're dedicated to delivering quality auto parts, expert customer service, and fast and free shipping, all backed by our 100% satisfaction guarantee. So visit us at 1AAuto.com, your trusted source for quality auto parts.
In this video, we're going to be working with our 2006 Chrysler 300. We're going to show you how to remove and replace your vehicle's front sway bar end links. Now, we're going to be doing this on the passenger side, but the procedure is exactly the same on the driver side, and we do recommend you replace this item as a pair.
If you like this video, please click subscribe. We have a ton more information on this and many other vehicles.
If you need this part for our car, you can follow the link down in the description over to 1AAuto.com.
Here are the items you'll need for this repair: full metric socket set, socket extensions, breaker bar, torque wrench, locking pliers, gloves, rust penetrant, jack, jack stands
Using a 21mm socket and a breaker bar, loosen all of your lug nuts about one turn. Raise and support your vehicle. We're using a lift to make it easier to show you what's going on, but this job can easily be done at home with a jack and jack stands. Remove your lug nuts the rest of the way by hand. Remove your wheel and tire.
Remove the 19mm nuts securing the sway bar link onto the strut and sway bar. Now, we're going to try this with the 19mm socket and ratchet; however, we may need a breaker bar and a pair of vice grips. We couldn't quite get it loose with the socket and ratchet, so we're going for a 19mm socket and a breaker bar. Seems to have done the trick.
Now that it's loose, we'll go back to our ratchet. Now, fortunately, ours isn't very rusty, so I'm just holding the backside of the sway bar link by hand to remove the nut. You may have to clamp it down with a pair of vice grips in order to get it to stay still while you remove the nut. We'll remove the top of the sway bar from the strut.
Now, we'll repeat this process on the end that goes into the sway bar. Now, this one's really stuck, so I've grabbed on to the backside of the sway bar with a pair of locking jaw pliers. We're using our breaker bar, our 19 mm socket, and our cheater pipe, to break it loose. Once it's loose, we'll switch back over to our socket and ratchet. Remove the sway bar from the vehicle.
Here, we have our old sway bar link that we removed from our vehicle and our new part from 1AAuto.com. As you can see, there are some minor aesthetic differences, but the basis of the part is exactly the same. We have the same length link. We have the joint on both ends. Clocked the same way. These are specific left and right. This is the passenger side, here. We have the same stud with the same backing. Our new one actually comes with these nice nylon locking bolts. Our new ones come with these nice nylon locking nuts, and the same hex on the end to help you if they get stuck or to make installation easier.
A bad sway bar link can cause a popping or clunking sound, depending on how bad it is, when going over bumps, because with these sockets are meant to travel smoothly in a radius. Slop in that joint can cause it to click up and down as it travels over bumps. If your vehicle has a bad set of sway bar links, then we do recommend you replace these in pairs. This new part from 1A Auto is going to go in direct fit, just like your original equipment, and fix you up right.
Install the bottom of the sway bar link back into the sway bar and start the new nut. Now, the new nut has a nylon lock on the end of it, so it's pretty difficult to spin on by hand, which means we'll go ahead and use our locking jaw pliers to secure it. The new hardware is 22 mm, so we'll use a 22 mm socket and ratchet to tighten that up. Torque the lower sway bar link nut to 95 foot-pounds. Install the upper portion of the sway bar link through the strut, so we'll grab the backside with a pair of locking jaw pliers, just like we did on the bottom. Use a 22mm socket and ratchet to snug it up before torqueing it to 95 foot-pounds.
Reinstall your wheel and tire, and get your 21mm lug nuts as tight as you can by hand. Lower the partial weight of your vehicle back onto the tire. Torque your lug nuts to 110 foot-pounds in a cross pattern.
Thanks for watching. Visit us at 1AAuto.com for quality auto parts, fast and free shipping, and the best customer service in the industry.
Tools used
Hi, I'm Mike from 1AAuto. We've been selling auto parts for over 30 years! We're dedicated to delivering quality auto parts, expert customer service, and fast and free shipping, all backed by our 100% satisfaction guarantee. So visit us at 1AAuto.com, your trusted source for quality auto parts.
In this video, we're going to be working with our 2006 Chrysler 300. We're going to show you how to remove and replace your vehicle's front lower control arm. This is the one in the front of your spindle with the ball joint installed in the actual arm, and not the one that connects to the spindle and the strut.
If you like this video, please click subscribe. We have a ton more information on this and many other vehicles. If you need this part for your car, you can follow the link down in the description over to 1AAuto.com.
Here are the items you'll need for this repair: full metric socket set, ratchet, socket extensions, 21mm wrench, 22mm wrench, breaker bar, torque wrench, 6mm Allen key, hammer, safety goggles, gloves, rust penetrant, jack and jack stands
Using a 21mm socket and a breaker bar, loosen all of your lug nuts about one turn. Raise and support your vehicle. We're using a lift to make it easier to show you what's going on, but this job can easily be done at home with a jack and jack stand. Remove your lug nuts the rest of the way by hand. Remove your wheel and tire.
After removing your wheel and tire, locate the bolt for the forward lower control arm on the sub-frame to remove this. We use an 18mm socket breaker bar, as well as an open ended 21mm wrench on the nut at the back. Make sure that's on there good and tight, because you have much fewer points of contact with a wrench. You don't want to risk stripping it. Once you get it loose, you should be able to switch over to a socket and ratchet. Finish removing the nut and bolt by hand. Be sure not to lose these large washers that are on either side of the sub-frame.
We'll place those somewhere safe while we finish removing our forward lower control arm. Remove the 22mm nut on the bottom of your ball joint with a socket and a breaker bar. Now, what we're going to do here is loosen that nut so it's flush with the end of our bolt.
Now, we'll hit the end of the stud and the nut with a hammer until it releases from the spindle. Be careful not to damage the backing plate in the process. Be sure to use safety goggles during this step. Using the 6mm Allen key to hold the stud on the ball joints steady, remove the nut. This step should only be necessary if in hitting the nut you get it wedged onto the stud, so be sure to check the condition of the threads once you finish removing the nut. You may have to swing the spindle away some in order to get that ball joint out. You may need to use a pry bar to help work the control arm out of the sub-frame if it's really wedged in there like ours is. Remove the control arm from the vehicle.
Here we have our old control arm, which we removed from our vehicle, and our new part from 1AAuto.com. As you can see, this new part is a complete assembly, which comes with a nice new boot. You can see how beat up this old one is. Has a new nut for the end of our ball joint. You can see, this is actually a really good example of some reasons you might replace this arm.
Here we can see how bad the ball joint on the end is, while our new one has no up and down play in it. You can see that our bushing is tearing through pretty bad over here. Now, there is evidence that this vehicle was lowered substantially, meaning that the suspension took much more abuse than it would at its factory ride height, so this new part from 1AAuto is going to get our vehicle riding back the way it should, like it did when it was new without the clunks and bangs and the poor feel of suspension and handling from this torn bushing and bad ball joint. It's going to go in direct fit, just like our original equipment, and fix this up right.
Reinstall the lower control arm. We'll have to start on the spindle end. Turning the wheel could help give us a little bit of the extra clearance we're going to need. Remember, without both lower control arms, you are able to move the hub a little bit. We'll line up the rear and reinstall our bolt hand-tight to start. The bolt will go through from the front. Now, ours was being pretty difficult going in, so I ended up using the 18mm socket and ratchet to help spin it into place. Make sure that there's no substantial weight on the control arm when doing this. Otherwise, you risk damaging your threads.
Now, we'll support the nut with our 21mm wrench. We're just going to get this down close, but not tight until the weight of our suspension is on the vehicle. Otherwise, we risk pre-loading the bushing and cause premature wear to our new part. Now set the ball joint end into its hole in the control arm. You may have to move the stud in the ball socket or turn the spindle one way or the other or pull it in and out to line everything properly. Start your new nut on the end of the threads.
Now, you'll notice I'm pushing down on the ball joint to set the taper into the spindle. This should help prevent the stud from rotating. If not, we'll have to use that 6mm Allen key to hold the stud in place while we tighten the nut with a 22mm open-ended wrench. Torque the ball joint to 50 foot-pounds and add 90 degrees to it.
Now, we're going to use a screw jack, but you can easily do this by reinstalling your wheel and tire and just letting your vehicle off the jack, or you can use a jack to push up on this lower control arm. Now we're going to put the weight of the vehicle back on to the suspension by lifting up on it, just until it comes off of your jack stands or in our case the lift. We'll torque our lower control arm bolt at the cradle to 130 foot-pounds. Remove your jack or a screw jack.
If you didn't use the weight of the vehicle on the tires in order to reinstall it, we'll reinstall your wheel and tire now. Get your 21 mm lug nuts as tight as you can by hand. Lower the partial weight of your vehicle back onto the tires. Torque your lug nuts to 110 foot pounds in a cross pattern.
Thanks for watching. Visit us at 1AAuto.com for quality auto parts, fast and free shipping, and the best customer service in the industry.
Tools used
Hi, I'm Mike from 1A Auto. We've been selling auto parts for over 30 years. We're dedicated to delivering quality auto parts, expert customer service, fast and free shipping, all backed by our 100% satisfaction guarantee. Visit us at 1AAuto.com, your trusted source for quality auto parts.
In this video, we're going to be working with our 2006 Chrysler 300. We're going to show you how to remove and replace your vehicle's upper control arm in your front suspension. Now this part is an assembly, so it comes with new bushings and a new ball joint all ready to go. If you like this video, please click subscribe. We have a ton more information on this and many other vehicles. If you want this part for your car, you can follow the link down in the description over to 1AAuto.com. Here are the items you'll need for this repair.
Using a 21mm socket and a breaker bar, loosen all of your lug nuts about one turn. Raise and support your vehicle. We're using a lift to make it easier to show you what's going on, but this job can easily be done at home with a jack and jack stands. Remove your lug nuts the rest of the way by hand. Remove your wheel and tire.
Remove the nut on the bottom of your ball joint with a 19mm socket and ratchet. Using a bungee cord or a mechanic's wire, we're going to secure our control arm. Now this should be okay, but you want to be careful when it releases to make sure that it doesn't flop over too far and tear something like your ABS sensor or your brake hose.
Now if you were to just replace this upper control arm, you could use a pickle fork or a ball joint fork and separate it by tapping that in between. However, that's prone to damaging the boots. If you're going to remove this to service the spindle, the strut, or something like that, you'll want to keep this intact. To do that, we'll use a hammer and tap on the front or side of the spindle right where the ball joint taper goes through to release it. Once you've tapped it free, you'll see why we installed that bungee cord.
Remove the 18mm nut on the outside of the strut tower here, and its twin over on the backside down here. You can't see it very well but you can reach it with an 18mm wrench, so we'll remove both of those. Remove the nut and move onto the back side. Be very careful of any wiring you find here. Our bolt was actually pretty rusty and I was having a tough time getting it off with a wrench. Fortunately, an 18mm socket and this flexible handle ratchet was able to get in there and do the trick. Remove the nut.
Now we did our job on the passenger side but you'll follow the same steps for the driver side with this small exception of relocating your coolant reservoir. Now this only takes a moment so we'll show you how to do it. You push this thumb tab over here so you can lift up and release the power steering reservoir. Just hang that off to the side. Then using a 10mm socket, ratchet, and extension, we'll remove these two 10mm bolts. Now you simply lift up and you can move the reservoir out of the way to access your 18mm nut.
Now to access the rear bolt on the driver side you have this cool little access panel for your brake fluid reservoir, which may allow you a little more room to get at this nut down here.
Remove the two captured bolts securing the control arm in. All you got to do is grab the tab, wiggle them out. You got to lay them down flat to get them behind the strut like that. Do the same thing on the rear. Remove the control arm from the vehicle.
Here we have our old upper control arm that we removed from our vehicle and our new part from 1AAuto.com. As you can see, these parts are mirror images of each other, the reason for that being this is the passenger control arm that we removed and this is the driver side upper control arm that I ordered for the vehicle. I made a mistake here. It's very important that you check your parts before beginning a job for this exact reason here. Everybody makes mistakes. I ordered the wrong thing and started on the wrong side of the car, and had we been doing this in the driveway, we would have been in some trouble right now with a job we couldn't finish and a car we probably drive every day.
However, if you ordered the correct part, you'll see that they have the same ball joint. Our new one even comes with this nice nylon thread-locked nut on it and two brand new bushings. The shape of this control arm is a mirror image of this because, again, it's the opposite side. You can see that the shape does follow the same contours, so the passenger side would be identical to this just as the drivers on our vehicle would be identical to this part. If your bushings go bad, it can cause a little bit of a vibration or a thud, maybe some creaking noises when you go over bumps. As can a bad ball joint, these can cause alignment and tire issues as well as handling and steering issues that you'll notice when driving the vehicle. If you have a bad upper control arm, be it the arm itself being rusted or damaged, bad bushings, or a bad ball joint, this complete replacement assembly from 1AAuto.com is going to go in direct fit just like our original equipment, so long as you ordered the correct side, and fix you up right.
Install your control arm. Make sure you lay the tab down flat on the bolt so you can line it up with the hole. You may have to wiggle them around there. These can be a little tough to see how you're lining them up. You just got to get that bolt started and work them around until it goes all the way through. There you go. Then we'll follow the same steps for the bolt in the rear.
Now there was nothing wrong with our old control arm, which is why we're reinstalling it. It's also why it's a good thing that we removed it by tapping the knuckle as opposed to using it with a pickle fork because we would have damaged the boot and rendered it useless. Slide the ball joint back into the spindle and start your 19mm nut. Torque the ball joint nut to 35 foot-pounds. Now once it's torqued, we'll want to add a 90-degree turn to it. You can use a torque angle finder if you have one, or you can just eyeball it like we've done there.
Remove your bungee cord and reinstall your wheel and tire. Lower the partial weight of your vehicle back onto the tires. Reinstall both of your 18mm nuts onto the studs. The reason we're going to tighten these down now is because with the weight of the vehicle on the tires, tightening these bushings down will mean that they're tightened nice and straight at ride height, which will prevent them from getting preload or twisted with the vehicle at ride height, which would cause premature wear of our bushings, meaning we'll have to do the job again sooner.
Now I'm just going to get these down nice and tight by hand, and we should be fine. If you want to torque them, the spec is 55 foot pounds, but you're going to have to remove a lot of stuff to get a torque wrench in there. Maybe you could use a crow's foot for it. We'll just get them down nice and tight with our hand tools and everything should be just fine. We'll use whatever tool you used to loosen the nut to tighten it back up. We used an 18mm socket with a flexible handle ratchet. You may have used a short wrench or a ratcheting wrench. Whatever you used to get access in there is exactly what we'll use to tighten it.
If you removed your driver side upper control arm, you'll have to lay your reservoir back into place and reinstall the two 10mm bolts. Tighten them down with your socket, ratchet, and extension. Slide the power steering reservoir back in and push it down until it clicks. Torque your lug nuts to 110 foot pounds in a cross pattern.
Thanks for watching. Visit us at 1AAuto.com for quality auto parts, fast and free shipping, and the best customer service in the industry.
Tools used
Hi, I'm Mike from 1AAuto. We've been selling auto parts for over 30 years! We're dedicated to delivering quality auto parts, expert customer service, and fast and free shipping, all backed by our 100% satisfaction guarantee. So visit us at 1AAuto.com, your trusted source for quality auto parts.
In this video, we're going to be working with our 2006 Chrysler 300. We're going to show you how to remove and replace your vehicle's front rearward lower control arm. This is the rearward most one in the front suspension that your strut bolts onto.
If you like this video, please click Subscribe. We have a ton more information on this and many other vehicles. If you need this part for your car, you can follow the link down in the description over to 1AAuto.com.
Here are items you'll need for this repair: Full metric socket set, ratchet, socket extensions, full metric wrench set, breaker bar, torque wrench, 6 to 12mm allen sockets, pliers, side cutters, bungee cord, safety goggles, hammer, rubber mallet, gloves, rust penetrant, jack, jack stands
Using a 21mm socket and a breaker bar, loosen all of your lug nuts about one turn. Raise and support your vehicle. We're using a lift to make it easier to show you what's going on, but this job can easily be done at home with a jack and jack stands. Remove your lug nuts the rest of the way by hand. Remove your wheel and tire.
After removing your wheel and tire, use a 19mm wrench to secure the nut on the back side if you're an aftermarket strut like we are. OE piece have a welded nut, and you'll only need your 18mm socket and ratchet to remove the bolt at the front. You may need to use an 18mm socket and breaker bar if it's on there pretty tight like ours is. Once you get the bolt loose, you should be able to finish removing it with a socket and ratchet.
Here's a helpful trick for removing a bolt that's in a bushing, like ours is here: They don't really want to just pull out like a bolt normally would once you've removed the nut, so you can use any wrench that's smaller than the flange or the head on the end of the bolt but bigger than the shank, in our case a 16 works, and you can push it out with one hand while turning the ratchet with the other. Once it's most of the way out, you should be able to move the suspension a little by hand and pull the bolt out.
Now, we'll loosen the upper control arm nut. You don't have to remove this completely, but we're going to loosen it just about to the end of the threads. Ours is spinning, so we're going to have to use a 19mm wrench, a 6mm Allen bit, and a ratchet. What we're going to do is counter-hold the nut and turn the shaft of the bolt here with that 6mm Allen. We're going to turn that clockwise to loosen. So, we'll remove that all the way. Be careful of your ABS wires and brake lines. Looks like we're going to have to disconnect the ABS sensor.
Now using a 21mm socket, and I'm going to use a breaker bar because this looks pretty rusty, you might be able to just use a ratchet, loosen the nut on the lower ball joint. Once we've got that loose, we can switch to a socket and ratchet. I'm going to use a bungee cord to secure our spindle onto the strut. You could also do the control arm. I'm just really concerned about the tension that's on this brake hose here. You always want to be mindful of that.
Now what you're going to do, if you're replacing your lower control arm, you’re going to want to hit the control arm here to separate it from the ball joint without damaging the ball joint itself. Before using a hammer or any other kind of heavy-duty tool, be sure to wear proper safety equipment, such as dust masks and safety glasses. Remove the two 15mm bolts on the sway bar bushing bracket with a 15mm socket and a breaker bar. Just loosen them up for now and switch over to a ratchet once they're a little easier to move. Remove the brackets and you'll see that there is a cut going down the center of the bushing, which we'll want to spread open and slide off of the sway bar.
Using a 12mm Allen socket, which I'm actually going to tap in because there's a little bit of rust buildup. This is not a bolt you want to strip. Normally, using the handle of a ratchet or breaker bar will tap it in enough without risking damage to either the tool or the piece of hardware like a hammer can. So, once that's in there nice and far, we know we're not going to strip it. I'm actually going to use an extension to get myself a little bit away from that bracket there while I'm putting the torque on it and 21mm wrench on the nut on the back side. Go ahead and break that loose with a breaker bar.
Pay attention because what I'm going to do is remove the wrench, rotate the nut and bolt together, hold the wrench again. We'll make the first couple of turns this way, so I don't have to reset that Allen, then we'll switch over to a ratchet. Now this bolt is pretty stuck in that bushing, so what I'm going to do here is remove our tools and leave the nut. Now in order to do what I want, I'm actually going to have to remove this nut completely. There's a large washer back here that we'll slide off. We'll reinstall the nut so it's just about flush with the end of the threads, and now we can tap that a little bit with a hammer and help slide the bolt out. I don't have a lot of room here, so I'm just using the side of the hammer, but this really doesn't take much force.
Now that we know it's moving nice and easy, we'll spin it off a few threads and tap it, spin it a few threads, tap it. Make sure you're not on the last thread when you do this because you can risk damaging it. We'll remove the nut, grab that bolt, and wiggle our control arm until we're able to remove it from the vehicle. Now you should be able to pull your spindle and hub out of the way. Again, always be careful of these hoses and wires. Work the control arm back and forth until it's out of the vehicle.
Here we have our old lower control arm that we removed from our vehicle and our new part from 1AAuto.com. As you can see, these parts are exactly the same, with the same casting. We have the same end here, where our ball joint is going to seat into. We have the same bushing for our lower strut to mount to, and the same bushing here where it goes into the vehicle's sub-frame. Now, what tends to happen with these, and this one isn't terrible, but you can see some of the cracking that's starting to take place around this sleeve inside of the bushing. Eventually, if that tears through, the suspension will feel very loose, probably make a lot of noise, and throw off your alignment angles, as well as throwing off the stability and handling of the vehicle.
This new part from 1A Auto has a nice new high quality bushing pressed in here. You can see how nice and tight that is around the sleeve, whereas the old one here is starting to tear out and fail. These bushings can go bad as well. There is a little slice in here, but that's actually a part of the production process. That's not any kind of damage. You can see both the new one and the old one have that, but you would be looking for the same cracking and separation here or any kind of looseness to the bushing. These should be very tight; I can't move these by hand. This one, I can move a little bit. Again, it's not terrible but it is damaged slightly. So, if your old control arm has failed bushings or the tapered end isn't holding the ball joint as it should, this new part from 1A Auto is going to go in direct fit just like your original equipment, get your vehicle riding and handling like it should, and fix you up right.
Install your new control arm back into the sub-frame of the vehicle. Now this can be a little tricky to line up, so you might have to wiggle it in a few times and once it's in you might need to use a mallet or a pry bar to get it right where you want it. The bolt hole is pretty close to where we want it, so I'm going to just tap it in. Looks like right about there is where we want it, so let's try to put our bolt through.
Now our bolt has this large washer on it, which if you try to put on and install it's not going to get past the sub-frame. So you need to slide it all the way to the end, sneak it underneath that channel in the sub-frame, and then install it into your control arm. Ours isn't quite lined up, so you'd need to wiggle it a little bit, and then you may actually have to turn it by hand to thread it in some. Now, ours was just misaligned slightly, so I'm using the ratchet with our 12mm Allen socket to thread it in. Now, you want to be careful and watch the threads on this side. You want to be careful and watch the threads on this side.
See, this is going through with very minimal effort, and it's not really dragging against the cross member, so it's okay to do it like this. But, if you really have to force it through there, you're going to end up rounding off all of these threads and making this bolt unsafe to use, especially on something critical like our control arm. Once those threads have gone through, reinstall the large washer on the opposite side as well as your nut. We're just going to get that snug for now, and we'll torque it once the weight's back on our vehicle.
Reinstall the ball joint into the control arm and start your castle nut on as far as you can get it by hand. Torque the lower ball joint nut to 50 foot-pounds with a 21mm socket. This bolt needs to get 90 degrees added to it. You can use a torque angle finder or you can just go about 90 degrees by eye. Our lower ball joint was missing a cotter pin when we pulled it apart, so we're going to be sure to install one now. You should always install a new one whenever you remove a cotter pin just because they're very light and flimsy, and they're very important to making sure these suspension components don't move. You can buy a kit of them at a very low cost and it's a good idea to swap them out any time you remove one. They get rusty and break and having a new one in there is just a little more peace of mind. Lay that through and bend the ends over with a needle-nose plier. I like to just bend one end to keep it from turning. Then, to keep it clean and simple, we just snip the straight end off with a pair of side cutters.
Now, this next part is where it gets just a little bit tricky. You're going to want to watch the fork on the bottom of your strut to make sure that it lines up over this bushing while simultaneously pulling up on the hub here and getting this nut started a couple of threads on your upper ball joint. Now, if you're doing this on the ground you could use a floor jack to bring the suspension up, and that's probably not a bad idea. That doesn't have to line up perfectly just yet, as long as it sits around the control arm so we know we have room to move it. Then we'll start our 19mm nut. We'll now hold the nut with our 19mm wrench and use our 6 mm Allen key socket and ratchet. You want the ratchet to rotate counter-clockwise this time to install. We'll now torque the upper ball joint nut to 35 foot pounds with a 19mm socket. Once again, we're going to add 90 degrees.
Remove your bungee cord, or whatever you used to secure your hub. Reconnect the ABS sensor if you disconnected it. Push up on the suspension and align your strut. Now, your strut does rotate a little bit, so you may have to turn it to get it to line up, and start your bolt. Then, make the fine adjustments to line up the other side. Once again, we'll use our 19 mm socket and ratchet to start running that bolt through. Just make sure that there's not a lot of tension on it and that it's not going to damage your threads.
Reinstall your nut. Once again, we're not going to tighten this down; we're just going to get it close. Ours has a 19 mm nut. Yours may vary. Now, we're going to use a screw jack under the lower ball joint. At home, you would want to do this same thing with your floor jack. Bring the vehicle suspension up to ride height. All that means is that we want to go until the weight of the vehicle is on it here. Using a 19 mm wrench and an 18 mm socket, with the weight of our vehicle on the suspension, we're going to torque this bolt to 128 foot pounds.
Then, with our 12 mm Allen and our 22 mm wrench, we'll torque the cradle bolt to 130. Lower the jack or screw jack supporting the suspension on your vehicle. Slide the back cover of the sway bar bushing bracket onto the sub-frame. Support the bushing and install it back over the bar. Install the top half of the bracket and start your two bolts by hand. Tighten the bolts down with a 15 mm socket and ratchet.
You can now reinstall your wheel and tire. Reinstall your wheel and tire, and get your 21 mm lug nuts as tight as you can by hand. Lower the partial weight of your vehicle back onto the tires. Torque your lug nuts to 110 foot pounds in a cross pattern.
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Tools used
Hi, I'm Mike from 1A Auto. We've been selling auto parts for over 30 years. We're dedicated to delivering quality auto parts, expert customer service, fast and free shipping, all backed by our 100% satisfaction guarantee. Visit us at 1AAuto.com, your trusted source for quality auto parts.
In this video, we're going to be working with our 2006 Chrysler 300. We're going to show you how to remove and replace the vehicle's inner tie rod which also requires the removal of the outer tie rod. We recommend you replace this at the same time. If you like this video, please click Subscribe. We have a ton more information on this and many other vehicles. If you need this part for your car, you can follow the link down in the description over to 1AAuto.com. Here are the items you'll need for this repair.
Using a 21 millimeter socket and a breaker bar, loosen all of your lug nuts about one turn. Raise and support your vehicle. We are using a lift to make it easier to show you what's going on, but this job can easily be done at home with a jack and jack stand. Remove your lug nuts the rest of the way by hand. Remove your wheel and tire.
Using the 24 millimeter wrench – and we've soaked both our jam nut and the nut on the end of the tie rod in penetrating oil – break the jam nut loose. We don't want to move it too far, just enough that it's off the end of the tie rod.
Using the 21 millimeter socket and a breaker bar, crack the nut on the end of your tie rod loose. Once you get it loose enough you may be able to finish removing it with a socket and ratchet. Now if you are removing and replacing the outer tie rod, you can use a pickle fork here, which sits between the spindle and the ball joint and knocks it out as you tap the fork in. However, that damages the boot rendering the old outer tie rod useless. So, in the interest in saving parts, we're going to use a hammer and hit the side of the spindle with a taper of the ball joint end goes through and release it. Remove your tie rod and count the number of turns it takes to remove it. It was just about 21 turns. We'll want to make sure that we install the new tie rod end that same number of rotations.
Now you'll notice that there's a hex cut on the end of your inner tie rod here, which is actually designed for a wrench to hold it. However, most open end wrenches are fairly weak and with a really stuck nut like we have on the end of our inner tie rod here, it's going to be a lot safer and easier to grab it with a pair of vice grips and spin this off with a 24 millimeter. We'll mark this flat with a paint marker. You could also mark it with a sharp chisel or punch, really anything that's just going to give you an indication of when it reaches the 12:00 position again. Five. Be sure to keep the tie rod itself steady, because this does pivot and can change the number of counts you have on that 12:00 position. Twenty-five, 26, 27, 28. It's about 28.
Using a pair of side cutters remove the clamp from the end of the tire rod boot. Now, you could also do this with a pair of pliers, but we're going to need the side cutters in the next step and I like to use the minimum amount of tools possible. Cut the old clamp off the inner edge of the boot. Sometimes you’ve got to work these ones a little bit to get them to break. Remove the boot from the rack.
Now you could get the appropriate inner tie rod tool or the right size wrench to get on to these flats and remove it. However in a pinch you can use a small pipe wrench. We set it over the end of the tie rod, tighten it up, and twist it off. Be very careful of this plastic insulator here. That's what's called a travel limiter and prevents the rack from sucking that end of the tie rod too far in and potentially damaging the seal. We want to be sure to reuse that when we install our new inner tie rod.
Here we have our old inner tie rod that we removed from our vehicle and our new part from 1AAuto.com. As you can see these parts have some minor aesthetic differences such as where the hex pattern lands on the inner tie rod in this taper here, but the important components are the same. We have the same threads on the end which are both the same length. It comes with a nice new jam nut which is good because this one was really stuck on there. You can see all the rust and corrosion that builds up. It has this little channel for keeping the bellow or the boot of the top situated exactly where it needs to be. We have the same hex on the inside here to help with installing.
You will have to remove this insulator and install it on the new part. What that does is it limits the travel of this part in and out of the rack so it doesn't get sucked in and risk damaging the seal on your rack.
What goes bad on these is this ball socket on the end which is what allows the tie rod to move and pivot as the suspension travels and the wheels turn left and right. Another reason you may replace this, other than having that socket worn out with in and outplay which you can feel when moving your tire at the 9:00 and 3:00 positions is these threads may become too corroded and not allow you to adjust your tie rods properly anymore, at which point you would want to cut that off, install a new one, and a new tie rod end on it, to make sure you can get easy and proper alignment angles.
Here we have our old tie rod end which we removed from our vehicle and our new part from 1AAuto.com. As you can see there are some minor aesthetic differences such as where the square channel is here. You either remove this with a wrench if it were to be stuck on while you're trying to get it off here in the tie rod, as well as having the grease fitting on this so you can service this and keep it greased, lubricated, and in good shape for longer. They have the same tapered end and threads, as well as a new nylon lock nut for our new part. The boots do look different but this has been bolted down and collapsed and it's been on there for almost 100,000 miles now. This is what all the boots look like when they're new and after you install it, it will closer to that.
Your tie rod end like most joints in your steering and suspension is a ball and socket joint. You can see that this one getting kind of tight, looks like there might be some rust building up down into that joint. Or these can develop play in them which will allow them to pop in and out or click side-to-side making your steering inaccurate and your alignment angles impossible to adjust, causing tire wear and handling issues. If you need to replace your tie rod end, this new part from 1A Auto is going to go in direct fit, just like your original equipment and fix you up right.
Make sure you change this travel limiter over from your old tie rod end onto this one. Be sure you can see that this one is a little worn here. This is the side that faced the rack. Be sure to mark that and put it in the same way. Once you've got it as tight as you can by hand, go ahead and finish tightening it up with your pipe wrench. You can see, this is just a small pipe wrench. I'm really not putting a ton of force on it. You'll feel where it stops on the end of those threads and doesn't want to go anymore. That'll be fine. Remove the new jam nut from the end.
We're going to use a new boot clamp on the end of our boot. However, if you don't have one of these, that's okay. You can get away with using a hose clamp for it. Set the teeth in and engage. Slide it all back in. Slide that on.
If you don't have a pair of cutters like this, which is what I use for the crimp tool, you can also get away with using an electrical crimper or a regular pair of side cutters. Just make sure you get on both sides of that fold and pinch it in. Get that as tight as you can without actually cutting into it. Make sure it stays secure.
Since we showed you the side cutter method of removing this clamp, we'll show you the other method, which is using a regular pair of pliers or lineman's pliers, pinching all three tabs together. You'll feel where this locks on to the end of the bevel. Slide that clamp on there and just let it go.
We're going to be replacing our old lock nut so we'll take our new one and just put a mark on one of the flats so we can count the same number of turns back on. Ours was just over 28. It's not going to matter if you're using the new one or the old one. We'll set that to about the 10:00 position, which is where mine came off. We'll count one, two, three, all the way up to 28.Now what we'll do is it was about 21 turns to get our tie rod on and again mine came off right around 9:00 or 10:00. We'll go ahead and get that going again and count 21 turns back on. Line up the stud on the end of your new tie rod end and insert it into your spindle.
Install your new nut. The new one is a 22 millimeter so we'll tighten that on with a 22 millimeter socket and ratchet. Torque the outer tie rod nut to 63 foot-pounds. Your new jam nut is 22 millimeter if you installed one, otherwise you'll use a 24 millimeter wrench and tighten it back down all the way against the tie rod end. Don't forget to grease the fitting until your boot swells, but does not break.
Reinstall your wheel and tire and get your 21 millimeter lug nuts as tight as you can by hand. Lower the partial weight of your vehicle back onto the tires. Torque your lug nuts to 110 foot-pounds in a cross pattern.
Thanks for watching. Visit us at 1AAuto.com for quality auto parts, fast and free shipping, and the best customer service in the industry.
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