How do you know when it’s time to change the stabilizer bushings? Have a smooth road for everyone: how and why to change stabilizer bushings. Causes of bushing failure

Before dealing with the topic of what a stabilizer bushing is, it wouldn’t hurt to refresh your memory about the stabilizers themselves, what are they for? The main task of this part is to keep the car as parallel to the road as possible. Despite various risks, for example, turns, braking, which cause both lateral and longitudinal rolls. The stabilizer must cope with them.

In the photo: stabilizer bushings for Honda Civic 5D

Stabilizer bushing - yellow

At the slightest roll, the ends of the stabilizers begin to move, thereby reducing the roll. The movement occurs along the bushings, which will be discussed. The purpose of the latter is to allow the stabilizer to twist in different directions. That is why they secure it with bushings. Over time, the bushings wear out, causing play to occur, which will lead to improper operation of the entire mechanism. The so-called “freedom of the part” increases, then, by and large, the presence of a stabilizer plays no role. Because, similarly to its absence, roll increases due to large strokes and rotation, controllability is lost and this is felt mostly in turns.

Kinds

There are several types of bushings:

Rubber bushings.

Polyurethane. Similar to the previous ones, except for the production material.

Recently, motorists have given preference to polyurethane bushings due to their high performance characteristics. As a rule, they “walk” longer. But this is also individual, depending on how you drive.

Also, you should not lose sight of the nuance that almost every model has its own size and configuration of bushings, which is why special attention needs to be paid to the selection and selection for a specific model. This issue is most acute for foreign cars.

What resource?

This question is quite individual; as such, no manufacturer can give exact “mileages”. It all depends on the specific operating conditions; keep in mind that bad roads, driving style, all of this affects the “life” of the bushing, and the stabilizer mechanism as a whole.

By the way, bushings are considered the most problematic area in the suspension on the Lada Vesta.

A creaking noise begins almost immediately from the factory, and a knocking sound is often added to it while driving over bumps. The problem is that they use low-quality material for manufacturing, which is why the resource of the original bushings on Vesta is very small. It’s all very simple to treat; you need to select analogues from other models. For example, it is known that bushings from Toyota Corollas, Avensis and KIA Rio fit perfectly and do not cause problems for West owners.

Stabilizer bushings for Lada Vesta from Kia Rio. Bushing article - Hyundai/Kia 54812-1G100, bracket - 54814-1G000

Judging by the reviews of drivers, bushings from German brands, which are often installed on “Germans” from the factory, performed well. For example, original parts can often last more than 150,000 km. At the same time, when it comes to analogues from China, the resource is reduced several times.

In general, it is generally accepted among motorists that the average “mileage” for a rubber bushing is 70,000 km; more advanced polyurethane bushings “run” 100,000 km. Some manufacturers even recommend carrying out a scheduled replacement after 30,000 km in order to avoid “surprises”. But, as already mentioned, everything is individual, you need to take into account all the operating features.

It is also worth clarifying this nuance; the life of the bushings is greatly influenced by the state of the thrust (stub) itself.

. For example, if there is a hole in the place where the bushing is attached, then the part will definitely not last the stated period and will not fully cope with the task. As a rule, after replacing the original bushings, owners observe a small amount of metal wear, somewhere around 1.5 mm. With each replacement of the bushings, the output will only increase, so in case of severe wear, it is wiser to replace the entire part so that, in general, the operation of this mechanism will be useful.

Signs of trouble

The following signs may indicate that something is wrong with the suspension. And one of the places that is worth checking is the stabilizer. So:

There is a slight play when turning the steering wheel.

The car began to “yaw” when moving.

When turning, you can hear distinct clicks from the wheels.

The car goes one way.

Vibration is felt.

How to replace?

The issue of replacement for some cars is purely individual, because depending on the model, the fastenings may differ. For example, to replace the bushings on the Mazda 6 and 5 at the front, you will also have to remove the steering rods to get to the brackets securing the rod itself. But, in general, you can draw up a small work plan. So:

Raise the car on a lift or drive it into a pit for convenience.

Keep in mind that the bolts may not budge even after this. Then the “grinder” comes into play. But first take care to remove the fuel hoses from the “dangerous” area. Cut off the "ears" of the staples to "free" the bar.

After unscrewing the brackets (clamps), we sort of move the stabilizer itself away from the subframe to make it easier to remove the bushing. Use a crowbar.

Pull off the old bushing.

Photo — Drive2.ru

We put on a new part.

Replaced the bushing

Please note that in most cases, the clamp fits extremely poorly on the new bushing, so try to position it as evenly as possible and minimize friction (use lubricant).

We tighten the clamp with a bolt. By the way, we recommend that you pre-treat the bolt and nut with lubricant so that in the future there will be no problems with unscrewing it.

By the way, this is an important nuance during replacement. You need to change both bushings at once, that is, do not leave the old part on the right side, but, for example, install a new one on the left side. There should be new bushings on both sides.

The car should be comfortable and safe. Should move evenly. Be stable against rollovers and cornering. There are many different ways to achieve such indicators. Now we will talk about the anti-roll bar and its elements in the system

Surely, every driver has repeatedly noticed that the car tilts to the side when cornering. Another car, on the contrary, seems to cling to the road surface with its tires and passes the bend without unnecessary swaying.

Of course, a lot depends on the type and design of the suspension. And, by the way, it undergoes significant changes from series to series. It should be noted that for a comfortable ride the suspension must be soft. But there are many disadvantages to being soft. One of them is body sway. To prevent this phenomenon, designers can use various tricks. More on this later.

Installing a stabilizer allows the suspension to be a little stiffer, keeping the car from swaying excessively while maintaining comfortable driving characteristics. The stabilizer bushings actively help him with this.

The stabilizer is made in the form of a metal rod and has spring properties. The front stabilizer bushings are installed approximately in the middle (depending on the design) and are made of rubber.

The middle part of the stabilizer is attached to the body or beam. It has a U-shape. The ends, by means of articulated struts (popularly called bones), are attached to the suspension elements, most often to the levers.

Now let's look at what a bushing is. A bushing, in the context of a stabilizer, is a mating part. That is, it is put on the part with its internal hole (an example would be a hand grip), fasteners are placed on it from the outside and screwed to a rigid element (in our case, either a suspension beam). Result: the stabilizer is fixed rigidly, but thanks to the bushings it has the ability to “float”, performing its working functions.

When worn out, stabilizer bushings can cause an unpleasant knocking noise. How to avoid this?

The lateral stability of a vehicle is extremely important, especially when cornering. If, for example, you do not take into account the speed of entering a turn, the car can easily roll over. Of course, if a “daredevil” is driving, even the newest-fangled cars may not be able to save the car. When changing, the car tilts in the direction opposite to the turn. There is a risk of capsizing. In this case, one wheel is more loaded than the other. It follows from this that the more loaded wheel needs to be “supported”. This function is assigned to the stabilizer. The stabilizer bushings, in turn, provide it with “floating rotation” to prevent metal rupture from overload.

The stabilizer is a very reliable element in the car’s suspension. Since it takes variable loads, the parts associated with it wear out. It is advisable to replace faulty parts with new ones at the next time without waiting for their complete destruction. Stabilizer bushings, provided they are of proper quality, last quite a long time, about 10,000 km. But they can remind you of themselves earlier with a characteristic creaking and knocking sound. There is no need to be afraid of this! But you shouldn’t delay resolving the issue either. You can replace the stabilizer bushings yourself. This does not require high qualifications or extensive plumbing experience. But be sure to read the car repair manual. It is also equally important to find and purchase high-quality bushings, thereby minimizing the likelihood of their premature wear.

A car's suspension has one incredibly important function and that is to provide traction. Only when all suspension devices (levers, fastening parts, elastic elements, stabilizer bushings) are in good working order can you be sure that overcoming even the most difficult sections of the road will be safe and comfortable.

When cornering, the vehicle's movement is directly related to an increase or decrease in the load on the inner or outer side of the wheels. An anti-roll bar is included in the suspension design to provide maximum control over vehicle handling and eliminate the possibility of strong lateral roll that may occur when cornering.

Anti-roll bar bushings are a mandatory element in almost all modern cars that are equipped with independent suspensions.

Such parts have a fairly simple operating principle, which is that the elastic suspension element automatically lowers the car while making a turn, and at this time they lift the car from the roll side. This ensures the best possible grip on the road.

These devices can be divided by design:

  • double-pipe, which are equipped with two cylinders, are most often an element of modern cars;
  • single-pipe, having only one cylinder.

It is worth noting that the stabilizer bushing is one of the most important structural elements of a car.

There are the following types:

  • iron (spherical), the design of which is similar to a ball joint;
  • rubber.

Recently, polyurethane stabilizer bushings have become increasingly popular, which can be easily replaced if necessary, and also have excellent performance characteristics. Car enthusiasts note that these particular parts are more convenient.

If such an element malfunctions, it must be replaced, as it can negatively affect the handling and performance of the car. If it is deformed or has cracks, noise may occur in the car's suspension (mainly when hitting an obstacle or when speed increases). As a matter of fact, it is precisely from such noises that one can determine that there is a problem with the suspension.

To determine whether it is necessary to change the front stabilizer bushings or the rear one, you need to periodically carry out suspension diagnostics, which should indicate malfunctions or prevent them.

If you need to replace them, you can easily do it yourself. Moreover, the scheme of such a procedure is extremely simple. First you need to remove the bolts that secure the clamp. After this, you need to move the stabilizer aside and remove the old parts, and then carefully install the new ones.

Using this scheme, you can replace both the rear stabilizer bushings and the front ones. Thanks to new spare parts, driving your car will become much more comfortable, and you will overcome any obstacles on the road with the least possible difficulty. Moreover, thanks to the new elements, the service life of the racks increases significantly.

Stabilizer strut bushings are also important parts of the car, since they significantly improve the movement and handling of the car, but due to faulty devices, specific noises arise. They are a side effect of the breakdown of such elements. And, of course, the car’s handling deteriorates significantly.

There are many parameters that are important when purchasing stabilizer bushings. Most car enthusiasts pay attention only to the characteristics of the part, such as diameter and compatibility with a specific car model. But no less important is the service life of a particular part, as well as its quality.

Many people believe that quality and service life are a mandatory component, but this is not the case, and each company involved in the production of such parts approaches its work differently, and therefore products appear on the market that are radically different in quality. We advise you to trust only trusted companies whose products you have already used repeatedly without encountering any negative aspects. Only then will new stabilizer bushings make the handling and ride of your car easier and more comfortable.

If you need such parts for your car, then you can make a purchase with maximum comfort using our website. We have a huge selection of various parts, which you can buy by contacting the supplier directly. If you haven’t found what you were looking for, you can place an ad and the required part will find you in the shortest possible time. In addition, on our website you can sell various spare parts for your car.

If cars always drove in a straight line, without accelerating or braking, a stabilizer would not be needed at all. Its work begins every time the car tries to tilt. Whether it's lateral roll when turning or longitudinal roll when braking, the stabilizer tries to keep the body parallel to the road surface. And despite the elementary design, he does it well.

The stabilizer is just a rod connecting the subframe to the wheel mount (today we will talk about the MacPherson front suspension, so let’s put it more simply - with the suspension arm). It should be noted that MacPherson really, really needs the use of a stabilizer, mainly due to some compromise in the design. The camber angle there is static, but during roll it changes due to the peculiarities of the suspension design. Why is this bad? Because changing camber angles inevitably reduces the area of ​​contact between the tire and the road. And the only way to avoid this phenomenon is to reduce the roll. This is where the stabilizer, which works like a torsion bar, helps: with a lateral roll, the opposite ends, fixed in the levers, begin to move in different directions, twisting the middle part. The resulting moment prevents further relative movement of the wheels, reducing roll. As you can see, it works very simply.

But in order not to become a fan of the cult of the stabilizer, it is necessary to say a few words about its shortcomings. Firstly, the stabilizer willy-nilly reduces the suspension travel. Of course, this is not critical for a passenger car, but for an SUV it can be harmful. Well, secondly, you shouldn’t get carried away with replacing the stabilizer with something more rigid, which some car owners sometimes like to do. In their opinion, a more durable stabilizer will help to almost completely avoid rolls and turn the Zhiguli into a Formula 1 car. This is a very dangerous misconception.

The first thing Kulibin will encounter with an arm-thick piece of iron in the front suspension is an unexpectedly easy drift due to an unhealthy imbalance of the grip of the front and rear wheels with the road (it will be insufficient for the rear wheels). It must be understood that the engineers who developed the suspensions carefully calculated not only each of the suspensions, but also their joint work. And if you incorrectly interfere with the operation of one of them, the overall controllability will decrease, although the roll, quite possibly, will become a little less.

So, what does the bushings have to do with it, and why change them? As I already said, the stabilizer must be able to twist from multidirectional forces on the right and left wheels. If it is welded or rigidly attached to the subframe in any other way, it will be deprived of this opportunity, which is why it is attached to it using bushings. Over time, they wear out, and the stabilizer begins to “walk” in them.

This play, like any other, increases the degrees of freedom of the part, which nullify all its ability to prevent roll. And then, when cornering, the car begins to lean on its side more than it should.

Not every car enthusiast will immediately notice this, so they change the bushings in other cases: if wear is detected during suspension diagnostics, or if it is already starting to knock. However, the second situation is usually more typical not due to physical wear, but due to a good impact or other mechanical impact.

So, we have come to understand that bushings must be replaced periodically, and this is completely normal. Let's see how to do this.

What will you need?

What's great about this renovation is that it's inexpensive. And I would even say that there is no point in doing it with your own hands, no matter how skillful they may be. Therefore, let's go to the service center and just watch how a specialist does it.

You will need a minimum of tools: an 18 mm socket and a 10 mm wrench (or socket). But look at the wrench: why has life crippled it so much? In fact, what we have in front of us is not just a key, but the Modernized Special Tool of Alexey Teleshov, we will call it that.

Since we will be changing the bushings on Logan, we will have to take into account some of its features, so such a tricky key may come in handy. In addition, you will have to look for a lift, and quite possibly a hydraulic strut (we used it, in any case) along with an angle grinder. So, despite the apparent simplicity, everything is not so simple.

Now about the cost of spare parts. There is no point in chasing the original, there are very worthy manufacturers, especially since the bushing is a piece of elastic, and it is not so difficult to do something there. Therefore, we pay attention to two popular models: the French Sasic for 160 rubles and the Belgian Sidem for 180. We will choose Sasic.

We go into the box and get on the lift.

As usually happens with threaded connections at the bottom of the machine, they have all long since become covered with a layer of dirt and have become sour. Therefore, before starting work, it makes sense to spray the bolts with WD 40. We wait a little and pull out the same key with a broken fate and try to unscrew the bolt ten from the top (seen in the photo).

Naturally, this is as useless as asking a cat to quickly walk through an open door (if you have a cat, you will understand the futility of the plan). But in this case, the design of the Logan suspension itself helps us: this bolt is usually simply cut off, because its purpose is unclear to anyone, even in the heavier and off-road Duster this unit is made simpler and a little more gentle (and the bolt has a smaller diameter). Therefore, the specialist draws a mark with a white marker at which it will be necessary to cut off the ear of the clamp. Now it’s up to the “grinder”: cut off this ear and move to the other side.

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Here the matter is complicated by the dangerous proximity of the clamp to the fuel pipes. They will have to be removed. This is easy to do: unscrew the nearest bolt protecting the oil pan, after which the tubes can be pulled out of the clamps and moved to the side. To keep them out of the way, they can be secured with a hook made of any fairly stiff wire. But all this will have to be done only if the eye has to be cut off on this side as well - for some reason the bolt here came off easily.

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Now remove the clamp. We unscrew the only fixing bolt with a head. Removing the clamp is not so easy, so we take the mounting bracket and hook it to the hole of this bolt. That's it, the clamp is in our hands. Now, using the same installation, we remove the stabilizer from the subframe and take out the bushing. Just for fun, let's compare the new and old bushings. The part we just removed shows wear, but it is not critical yet. A completely dead bushing has a well-defined ovality. But once we start making changes, we do the work until the end.

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We take the assembly again and again move the stabilizer away from the subframe. We insert the sleeve, after which the mounting can be removed. To make it easier to install the clamp, we use grease (we used copper). We apply it to both the clamp and the bolt.

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This is necessary so that, firstly, it is easier to put on the clamp, and secondly, it is easier to unscrew the bolt next time. It is not always possible to press the clamp into place by hand. I would even say that it always doesn’t work out. Hitting the rubber with a hammer is usually useless, so we drag a hydraulic strut under the car. We rest it against the clamp and lift it slightly. If everything is assembled correctly (although what could be assembled incorrectly?), then the holes on the clamp and the subframe will coincide, and all we have to do is tighten the bolt and then tighten it to the end.

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It happens that the clamp does not want to go into place. In this case, you should not try to pull it onto the bushing with excessive force: it can be damaged or deformed and simply tighten it crookedly. It will turn out even worse than it was, because the stabilizer is equally contraindicated by excessive play and too tight a position, when it cannot work as a torsion bar. Most likely, the problem is insufficient lubrication - without it, friction between the iron of the clamp and the rubber of the bushing will not allow the part to be installed correctly and without unnecessary effort. Add a little of it and everything will go much easier.

And now we repeat exactly the same operation on the other side, not forgetting to return the fuel pipes to their place and tighten the protection bolt if they still had to be removed. That's all.

What's the result?

In principle, there are no fundamental differences on other cars with MacPherson front suspension. And there is hardly anything difficult in this work, if not for the use of a lift and some other tools to deal with soured bolts.

Work in the service would cost 440 rubles per side. Inexpensive, but you can try to make it yourself. There is a beauty here: if something goes wrong, you can carefully drive to the service station without a stabilizer at all, and then everything will be put back together as expected. Well, maybe they will laugh, but this will happen in your absence.

It will be much worse to continue driving with broken or worn bushings. Even if there is no knocking at the bottom (and at first there will definitely be nothing knocking), the controllability will decrease, sometimes even to the point of disgrace. There is no point in bringing it to this point; every turn will be much more dangerous than it actually is.

For assistance in preparing the material, we thank the network of specialized stores and car services “Logan-Shop” (St. Petersburg, Shkolnaya St., 73/2, tel: 928-32-20)

Have you ever had a stabilizer bar?

Stabilizers are responsible for the vehicle's stability on the road. To eliminate noise and vibration from the operation of the components of the stabilizers, special bushings are used - elastic elements that give smooth operation.

What is a bushing? An elastic part is created by casting from rubber or polyurethane. Its shape remains virtually unchanged for different car models, but sometimes has some features depending on the design of the stabilizer. To improve the performance of bushings, they sometimes have bosses and grooves. They strengthen the structure and allow parts to last longer, and also protect against mechanical stress that can damage them.

What are bushings and why are they needed?

The main task of bushings is to reduce the noise of the suspension when driving and attach the stabilizer to the car body. As a rule, they are made from two materials: polyurethane and rubber. The parts have high elasticity and strength, which is why there are no squeaks or knocks when the height of any of the wheels changes. In addition, it is impossible to rigidly attach the stabilizer to the body, since the distance from the attachment point to the edge of the stabilizer changes when bending.

Often, a faulty bushing can be indicated by various sounds that occur when driving and making sharp turns - squeaks, knocks, and so on. This phenomenon is associated with the loss of elasticity of the bushing, as a result of which it becomes very rigid. Dust or sand may also accumulate under this part.

Stabilizer design features

In the field of mechanical engineering, the stabilizer appeared along with the first cars whose maximum speed exceeded 20 km/h. Due to the large rolls that occur when turning, there was a need to install this component. The main purpose of the stabilizer is to protect the vehicle from rollover, since during a turn the load on the outer wheels increases, and on the inside, on the contrary, decreases. This causes the car to rock. The stabilizer makes it more stable on the road, preventing it from turning over.

Stabilizer bushings. Signs of malfunction. Consequences.

For the best damping of vibration and force impacts on the car body, the vast majority of suspension elements are connected by means of elastic elements. The same applies to the stabilizer. To secure it, special bushings (rubber bands, cushions) made of durable rubber or polyurethane are used. Over time, as the vehicle is used, these bushings may begin to deteriorate and noticeably lose their elasticity. The result of this is unsatisfactory operation of the stabilizer =. More serious defects may begin to appear, which will only grow faster over time.

The first symptom indicating replacement of the bushings will be a slight knocking sound from the suspension. A similar knock can be observed with “tired” shock absorbers. Only in the case of bushings it will be heard not only on potholes and potholes, but also when entering relatively sharp turns. At the same time, the car often feels excessively rolly and sluggish. The knocking sound that appears will be a consequence of play that has arisen in the connecting nodes of the stabilizer arms due to worn bushings.

If measures are not taken in time, the knocking will only intensify in the future and will begin to accompany the operation of the suspension everywhere due to increasing deformation and destruction of the bushings. Body roll and excessive play in the steering wheel may occur. The car may “yaw” not only when turning, but also when braking or changing lanes. Most car manufacturers recommend changing stabilizer bushings every 30–40 thousand mileage. However, in our conditions it is better to focus on bushing wear. Therefore, a sudden knocking sound and slight rattling in corners will be clear signs of an impending component replacement.

As a popular method of checking the bushings for serviceability, it is proposed to drive the speed bump diagonally in 2nd gear. A dull knock appeared in the area of ​​the pedals - most likely due to the hub bushings. You can also just crawl under the car and inspect everything yourself. A worn bushing will be pleased with the presence of cracks and abrasions characteristic of worn and cracked rubber. Auto mechanics sometimes also call these cracks “daisies.”

Also, the rubber of the bushings can simply harden and lose the necessary elasticity. If you can’t get a good look at the stabilizer bushings, just swing your hand strongly up and down and to the sides on the stabilizer itself. If you feel play, creaks and knocks in the lower part of the suspension, it means that the bushings have become unusable.

But for the best results, it is, of course, better to drive onto an overpass, an inspection hole, or use a lift. The only tools you will need are a crowbar or a mounting spade, which you simply need to rest against the bottom of the car and slightly “shake” the stabilizer where it connects to the body. If you feel noticeable play or loss of elasticity, then it’s time to think about replacing the bushings.

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Comments 38

That's right Cystitis 221

It was on fire during the day, and it seemed to be clear that it should be held tightly, so they used silicone grease to extend the life of the rubber band.

After tightly pressing the stabilizer rod with rubber, the assembly should work like a silent block or torsion bar. To increase the gripping ability, bushings from some manufacturers have a fabric insert welded into rubber inside at the point of contact with the rod. If there is a hole in the rod, you can wrap fabric insulating tape around the rod. There can be no talk of any lubrication. As soon as the stabilizer rod rotates at the point of contact with the rubber, the space will immediately become filled with dirt and increased wear of the rubber and stabilizer. The talc that coats the new bushings must be removed from the seat.

The stabilizer will move in the bushing in any case! Don't fool people!

Will the stabilizer move or should/shouldn't it rotate in the bushing? These are different concepts. Install a wear-free stabilizer, a new original bushing and, jacking up the car, see whether the rod in the bushing rotates or not when lowering/raising... Or only deformation of the rubber occurs... No need to theorize. Check it out in practice...

The word should is not appropriate here! It will spin anyway, if you jack it up you won’t see how it turns as you lift it smoothly, but when you hit a bump or quickly drive over a speed bump you can hear a creaking noise, this means the stabilizer is moving in the bushing, that’s why it’s a bushing and not a silent block! Although I have a 23.2 stabilizer and installed 21.2 bushings, it still rotates and will rotate! Because over time the bushing wears out!

After tightly pressing the stabilizer rod with rubber, the assembly should work like a silent block or torsion bar. To increase the gripping ability, bushings from some manufacturers have a fabric insert welded into rubber inside at the point of contact with the rod. If there is a hole in the rod, you can wrap fabric insulating tape around the rod. There can be no talk of any lubrication. As soon as the stabilizer rod rotates at the point of contact with the rubber, the space will immediately become filled with dirt and increased wear of the rubber and stabilizer. The talc that coats the new bushings must be removed from the seat.

You wrote that as soon as the stabilizer turns, the bushing will wear out! The stabilizer will turn in the bushing after a maximum of 200 km, or even immediately after passing a speed bump!

After tightly pressing the stabilizer rod with rubber, the assembly should work like a silent block or torsion bar. To increase the gripping ability, bushings from some manufacturers have a fabric insert welded into rubber inside at the point of contact with the rod. If there is a hole in the rod, you can wrap fabric insulating tape around the rod. There can be no talk of any lubrication. As soon as the stabilizer rod rotates at the point of contact with the rubber, the space will immediately become filled with dirt and increased wear of the rubber and stabilizer. The talc that coats the new bushings must be removed from the seat.

as BaHbka715 said, what is the point of this bushing then? the stub would have been welded and that’s it! Even if somehow the bushing works to twist, then what kind of twist can there be? 1 mm down and up, what's the point?

If the stub was not supposed to move a little, then it would either be welded or screwed tightly. I installed yellow polyurethane “Fulcrum” (described in the BZ). Before installation, I sprayed the stub with silicone spray and the bushings with Tsiatim-221. So far everything is buzzing

Fiat Club Forum in Russia > Technical section on Fiat Albea > Chassis, transmission, control > Stabilizer bushings: to lubricate or not?

View full version : Stabilizer bushings: to lubricate or not?

The actual question is stated in the title of the topic. In my car, the design is slightly different (not fundamentally!) from Albeikina’s. The stabilizer is connected to the struts through rods: popularly “bones”, according to “science” - struts of the front stabilizer (https://www.drive2.ru/l/1712837/). So the conversation in the topic will be about the bushings through which the stabilizer itself is attached to the car body! There are 2 opinions (which is logical!): 1. Absolutely not! These bushings work to twist (like silent blocks), and if they are lubricated, the whole “intention” of the design is lost. 2. Of course, smear! Vaughn (https://www.drive2.ru/l/6500605/) and BMW, KIA advises in its instructions! Otherwise you will be riding on a creaking, unlubricated (literally!) cart! We share our thoughts on this matter, our decisions/observations! __________________________________________________ __ PS I’ll share my observations: I agree with 1 opinion, but it works exactly until the first good frost! Then the rubber “dumbs” and it “pulls off” on the stabilizer with a loud squeak! Once it “pulled off” - count it all: it works like a sliding bearing (though with a terrible creak!), and not like a silent block! Accordingly: bushings need to be replaced! It turns out. that bushings have already become consumables, and we change them like oil, at least once a year! Kick-ass comrades! Actually, the dealer (I have a VW) doesn’t deny the problem, just come and we’ll replace it without any problems! But they will last no more than a year - then welcome to us again! I (and not only me!) don’t like this situation and I decided to go with the 2nd opinion (lubricate) but with a reservation and modification (we shout: well, as always, “collective farm”!) I have fluoroplastic tape with a thickness of 1.5 ... 2 mm (who knows what kind of material this is, will understand!). Having removed the rubber bushing, I wrapped (one layer) of this tape around the stabilizer at the point of contact with the bushing. The stabilizer itself in this place was pre-lubricated with graphite lubricant. I also lubricated the bracket securing the bushing with this grease. The operation was repeated with the second bushing. Let's see how much is enough!

Benefits of timely replacement

Every driver can cope with replacing bushings on his car, because this process is not a very complicated repair. You can do everything yourself, but if you don’t have the time or desire, then it is advisable to seek help from specialists. This will protect the stabilizer bar links from premature wear.

Driving on poor-quality road surfaces will fade into the background if you have previously installed new bushings. And in general, installed new bushings mean the absence of difficulties and problems when moving, as well as comfort and safety.

Replacing the Kia stabilizer bushing

Replacing the Kia stabilizer bushings involves the following algorithm: • Raise the front of the car and remove the wheels. Find the steering shaft and make a mark (for easy further installation in the original place), remove the mounting bolt. • Using a jack, lift the gearbox, unscrew the rear cushion and subframe. • To simplify access to the rear cushions, four bolts are removed to secure the subframe. • Raise the front part of the subframe using a jack. • Remove the fastening and treat it with an oil solution to prevent the development of corrosion processes on the metal. • Screw them into place only four to five turns.

This is done crosswise to provide additional security and uniform tightening of the plane. • Loosen the jack to a level where you can reach the bushing bolts. • The bushing on the right side can be easily unscrewed through the engine compartment, and on the left side - from below. • Insert staples. This procedure is carried out in a careful manner so as not to damage the clamp on the steering boot. • The process is repeated in reverse order. The peculiarity of the Kia Sid car is that the steering shaft has a telescopic appearance, and therefore its installation occurs at the last moment.

The following types of bushings exist:

1. Spherical (or “iron”) bushing. The design resembles a ball joint;

2. Rubber bushing.

Today, polyurethane type stabilizer bushings are becoming increasingly popular. They are quite easy to replace, which is an important advantage, and they also have good operating characteristics. Experienced drivers can safely say that these are the parts that are most convenient.

If a malfunction occurs in the area of ​​the stabilizer bushing , it must be replaced without fail. Otherwise, this can have a very bad effect on the performance and handling of the vehicle. When the bushing is deformed or cracks appear on it, some noise may appear in the area of ​​the car suspension (mainly when the car hits an obstacle or increases speed). In principle, problems in the suspension area are identified precisely by such noise.

In order to make sure that it is necessary to replace the bushings, periodically it is necessary to carry out diagnostics of the suspension, after which the malfunction will be identified or prevented.

In the event that it is determined that it is necessary to replace the stabilizer bushing, this can be done independently. Moreover, there is nothing complicated about it and the procedure is very simple. First, the bolts with which the clamp is attached are unscrewed. Then the stabilizer is moved to the side and the old parts are removed. Well, for the final action, the new part is installed very carefully.

Exactly according to this scheme Both the front stabilizer and rear stabilizer are being replaced. After replacing spare parts, driving a car will be much more pleasant and comfortable, and various kinds of road obstacles will be overcome without any difficulties. Among other things, the new elements will maximize the performance of the racks.

As you know, the anti-roll bar allows you to avoid extreme loads on individual parts of the chassis. To put it simply, the stability of the car on the road directly depends on its operation, and the stabilizer also prevents the body from tilting too much when cornering. In this case, the stabilizer is connected to other parts through stabilizer struts.

Also, to reduce noise and absorb vibrations that arise during the operation of the stabilizer, the design uses special elastic stabilizer bushings (made of rubber and in everyday life called stabilizer rubber). Next, we will look at what a stabilizer bushing is, how it is designed and works, as well as how to check stabilizer bushings and how to replace the bushing.

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Rear and front anti-roll bar - design

The centrifugal force caused by the rotation of the vehicle causes the body to roll and feel tilted, which can cause the vehicle to roll over. To avoid such situations on the road, a stabilizer bar (STR) was invented, which is now installed on various types of independent vehicle suspension (both front and rear). This is an important element of the suspension; it works on the torsion principle, connecting opposite wheels with torsion flexible parts.

Do not install this element on the rear wheels of vehicles that use their own torsion beam as suspension.

The rear and front anti-roll bars are made of round spring steel. The rod is made in the shape of the letter “P”. It is attached using clamps and rubber bushings to the car body (across). The configuration of the stabilizer can be very complex, since it is located under the body, where many different components and mechanisms of the vehicle are located. Let us immediately add that rubber bushings allow the SPU to rotate.

The stabilizer is connected to the suspension elements using shock absorbers (the so-called bones) and double wishbones. Moreover, such a connection is most often made using struts (in fact, the transverse stabilizer bar is an ordinary braid), although assembly is possible without the use of additional bars.

Front stabilizer bushings and building: what you need to know

First of all, the stabilizer bushing is a part molded from rubber or polyurethane. As a rule, the shape is often very similar for different cars. It should also be noted that to increase the service life and reliability, the stub bushings have grooves and bosses. These modifications made it possible to protect the bushings from mechanical damage.

The product is simple, but its functions are quite important. Not only comfort, but also the quality of operation of the stabilizer itself depends on the condition of the bushings. For this reason, it must be taken into account that any defects in the bushings are grounds for their replacement.

As a rule, replacement is required every 30-40 thousand km. mileage or 5-6 years. At the same time, experts recommend replacing all bushings in one go, that is, even if only one element has failed. During inspection, it is important to clean the bushings from dirt in order not to miss defects and to increase the service life of the part in the event that replacement is not currently required.

Replacement is also needed when the following symptoms appear:

  • the steering wheel feels loose when cornering, and there is a wobble on the steering wheel;
  • the body tilts strongly, when tilting you can hear clicks, tapping, and squeaks;
  • the suspension vibrates, extraneous noise is heard
  • the car began to pull when driving in a straight line;
  • a clear loss of stability is noticeable, the car does not hold the road;

We also note that the creaking of stabilizer bushings, although not an acute and dangerous problem, greatly impairs the operating comfort of the vehicle. For this reason, it is also practiced to replace the bushings if the stabilizer bushings are held together.

Diagnostics

Knocking of the stabilizers is a guaranteed sign of the need to immediately replace the bushings. In addition, squeaks may appear, especially when it gets colder, when the rubber loses its elasticity. It may be necessary to remove the crankcase guard to determine the need for replacement. To check the source of vibration, place your hands on the stabilizer link and directly on the mounting bracket. The partner must press firmly on the hood of the car several times. If vibrations are felt on the brackets, which are transmitted to the rack, it is necessary to install a new set, even if no play was noticed when inspecting the seats on the stabilizer. If the hole inside the bushing has taken the shape of an ellipse, cracks are visible on the surface, and the material has hardened, immediate replacement is necessary. Continued operation of the vehicle will significantly reduce the service life of the stabilizer struts.

Let's sum it up

As you can see, the rear stabilizer bushing or the front stabilizer bushing is a simple element both in terms of design and replacement. At the same time, the bushing of the stabilizer link and the bushing of the stabilizer itself are different, so it is important not to confuse these elements when selecting the necessary spare parts.

The vehicle suspension is one of the most important parts, subject to heavy loads and taking on all the impacts of a rough road. Thanks to its operation, the driver can feel comfortable and not be afraid that while driving the situation may get out of control. However, due to heavy loads, especially when driving on bad roads, which is not uncommon in the Russian Federation, its parts often fail. The most common problem is broken stabilizer bushings. Let's take a closer look at why this happens and how the stabilizer bushings are replaced.

Sequence of work

  1. The car is securely fixed when jacked up.
  2. The wheels are unscrewed and removed. There is an engine protection shield in the right wheel arch. Its fastenings are unscrewed and the shield is removed.
  3. Most of the fasteners under the bottom are pretty acidic, so to speed up the process of replacing stabilizer bushings, they need to be thoroughly treated with a WD 40 solution, which removes corrosion.
  4. Using an open-end wrench, we fix the finger on the left post. It is slightly hidden from direct access, so you need to find the grooves almost by touch.
  1. We throw a spanner, preferably a ratchet, onto the nut that secures the shock absorber. Unscrew both fasteners.
  2. Having freed the stabilizer struts from their fastenings, we disconnect them from the shock absorber strut.
  3. We install a jack under the left rear part of the subframe. With its help, the subframe is fixed so that when the fasteners are removed, it does not suddenly jump off the studs. A metal plate of considerable size must be placed under the supporting head of the jack so as not to deform the subframe.
  1. Smoothly lower the jack a few centimeters from the body. Thanks to this, the subframe also lowers slightly, opening access to the bushings.
  1. A pipe is inserted into the resulting gap, and the subframe is further pressed down. A stopper is inserted into the resulting gap. A 27mm head is suitable; when installing it between the body and the subframe washer, it is better to use pliers. This will save your hand from injury if the pipe slips off the subframe washer.
  2. We generously water the bracket fastenings with WD-40. We unscrew the bolts gradually, without pressing too much.
    Remove the freed bracket from the bushing, and then remove the bushing itself.
  1. We install the bushing from the new kit. The cut on the part should be directed strictly back. We position the new part exactly in the place of the old one.
  2. Install a clamp over the bushing. Lightly tighten the fasteners with your fingers, and then tighten them with a wrench, tightening all the bolts one by one and evenly.
  3. The stopper, for which the key head was used, is removed. The subframe is lifted by hand and screwed to the body.
  4. All of these steps are performed in the same way with respect to the second clamp.
  5. Once the bushings are in place, both posts are screwed into place.

IMPORTANT! Before installation, all threaded parts of fasteners are coated with graphite lubricant to avoid sticking.

When performing the above work, you should be careful and pay attention to safety precautions. In general, such work can be done with your own hands. Naturally, the design of different car brands differs significantly, so the replacement instructions are rather of a general recommendation nature. For more detailed information, a series of videos on carrying out this type of repair for various brands of cars is presented. Video on replacing stabilizer bushings on a Ford Explorer:

Video Chevrolet Aveo 3 - split bushings used in this model make the repair process quick and easy.

Nissan X-Trail Video:

Video explaining workflows for Renault Logan:

The anti-roll bar is an interesting thing. Its main feature is that it is often underestimated by car enthusiasts, especially those who have recently driven or have never seen anything cooler than a “nine” with leaking shock absorbers. Indeed, you can completely remove it and throw it away - the car will still drive. It's really bad.

No need to heel!

If cars always drove in a straight line, without accelerating or braking, a stabilizer would not be needed at all. Its work begins every time the car tries to tilt. Whether it's lateral roll when turning or longitudinal roll when braking, the stabilizer tries to keep the body parallel to the road surface. And despite the elementary design, he does it well.

The stabilizer is just a rod connecting the subframe to the wheel mount (today we will talk about the MacPherson front suspension, so let’s put it more simply - with the suspension arm). It should be noted that MacPherson really, really needs the use of a stabilizer, mainly due to some compromise in the design. The camber angle there is static, but during roll it changes due to the peculiarities of the suspension design. Why is this bad? Because changing camber angles inevitably reduces the area of ​​contact between the tire and the road. And the only way to avoid this phenomenon is to reduce the roll. This is where the stabilizer, which works like a torsion bar, helps: with a lateral roll, the opposite ends, fixed in the levers, begin to move in different directions, twisting the middle part. The resulting moment prevents further relative movement of the wheels, reducing roll. As you can see, it works very simply.

But in order not to become a fan of the cult of the stabilizer, it is necessary to say a few words about its shortcomings. Firstly, the stabilizer willy-nilly reduces the suspension travel. Of course, this is not critical for a passenger car, but for an SUV it can be harmful. Well, secondly, you shouldn’t get carried away with replacing the stabilizer with something more rigid, which some car owners sometimes like to do. In their opinion, a more durable stabilizer will help to almost completely avoid rolls and turn the Zhiguli into a Formula 1 car. This is a very dangerous misconception.

The first thing Kulibin will encounter with an arm-thick piece of iron in the front suspension is an unexpectedly easy drift due to an unhealthy imbalance of the grip of the front and rear wheels with the road (it will be insufficient for the rear wheels). It must be understood that the engineers who developed the suspensions carefully calculated not only each of the suspensions, but also their joint work. And if you incorrectly interfere with the operation of one of them, the overall controllability will decrease, although the roll, quite possibly, will become a little less.

So, what does the bushings have to do with it, and why change them? As I already said, the stabilizer must be able to twist from multidirectional forces on the right and left wheels. If it is welded or rigidly attached to the subframe in any other way, it will be deprived of this opportunity, which is why it is attached to it using bushings. Over time, they wear out, and the stabilizer begins to “walk” in them.

This play, like any other, increases the degrees of freedom of the part, which nullify all its ability to prevent roll. And then, when cornering, the car begins to lean on its side more than it should.

Not every car enthusiast will immediately notice this, so they change the bushings in other cases: if wear is detected during suspension diagnostics, or if it is already starting to knock. However, the second situation is usually more typical not due to physical wear, but due to a good impact or other mechanical impact.

So, we have come to understand that bushings must be replaced periodically, and this is completely normal. Let's see how to do this.

What will you need?

What's great about this renovation is that it's inexpensive. And I would even say that there is no point in doing it with your own hands, no matter how skillful they may be. Therefore, let's go to the service center and just watch how a specialist does it.

You will need a minimum of tools: an 18 mm socket and a 10 mm wrench (or socket). But look at the wrench: why has life crippled it so much? In fact, what we have in front of us is not just a key, but the Modernized Special Tool of Alexey Teleshov, we will call it that.

Since we will be changing the bushings on Logan, we will have to take into account some of its features, so such a tricky key may come in handy. In addition, you will have to look for a lift, and quite possibly a hydraulic strut (we used it, in any case) along with an angle grinder. So, despite the apparent simplicity, everything is not so simple.

Now about the cost of spare parts. There is no point in chasing the original, there are very worthy manufacturers, especially since the bushing is a piece of elastic, and it is not so difficult to do something there. Therefore, we pay attention to two popular models: the French Sasic for 160 rubles and the Belgian Sidem for 180. We will choose Sasic.

We go into the box and get on the lift.

As usually happens with threaded connections at the bottom of the machine, they have all long since become covered with a layer of dirt and have become sour. Therefore, before starting work, it makes sense to spray the bolts with WD 40. We wait a little and pull out the same key with a broken fate and try to unscrew the bolt ten from the top (seen in the photo).

Naturally, this is as useless as asking a cat to quickly walk through an open door (if you have a cat, you will understand the futility of the plan). But in this case, the design of the Logan suspension itself helps us: this bolt is usually simply cut off, because its purpose is unclear to anyone, even in the heavier and off-road Duster this unit is made simpler and a little more gentle (and the bolt has a smaller diameter). Therefore, the specialist draws a mark with a white marker at which it will be necessary to cut off the ear of the clamp. Now it’s up to the “grinder”: cut off this ear and move to the other side.

The vehicle suspension is one of the most important parts, subject to heavy loads and taking on all the impacts of a rough road. Thanks to its operation, the driver can feel comfortable and not be afraid that while driving the situation may get out of control. However, due to heavy loads, especially when driving on bad roads, which is not uncommon in the Russian Federation, its parts often fail. The most common problem is broken stabilizer bushings. Let's take a closer look at why this happens and how the stabilizer bushings are replaced.

What are stabilizer bushings used for?

The answer to the question: “Why are stabilizer bushings needed?” very simple. The main purpose of this car part is that it will influence the noise produced by the suspension while the vehicle is moving, reducing it. It is also used to attach the stabilizer to the body of your car.

A special feature of this part is its elasticity. Due to the fact that it is made of materials such as polyurethane or rubber, you will not hear any sounds when changing the height of the wheel. The choice of these materials allows you to attach the stabilizer to the body, despite the constant change in the distance between them that occurs during bending.

Note! The shape of the stabilizer is similar for most cars, but can be modified due to design features.

Why change stabilizer bushings?

If you do not take care of timely replacement of stabilizer bushings, the following will happen. When entering a turn or driving on a road with an uneven surface, the vibration of the suspension that occurs during these actions will not be dampened. The finishing of the stabilizer bar on the car will also worsen.

You can drive with such faults for quite a long time, but this will wear out the life of your suspension and the entire car much faster. In addition, the failure of stabilizers leads to the appearance of rather unpleasant noises.

How to identify signs of wear on stabilizer bushings?

The occurrence of the following malfunctions during vehicle operation will indicate a malfunction of the stabilizer bushings:

  • The first warning sign when the bushing fails will be the appearance of noise and knocking in the suspension when the car is moving. The difference from faults with shock absorbers will be that the suspension will knock not only when passing uneven surfaces, but also when entering turns with a small radius. Moreover, the road surface in this case may be in good condition and not contain any unevenness;
  • If you do not pay attention to the knocking sound in the suspension and continue to drive the car, the situation will begin to worsen. The noise in the suspension will increase and will be caused by any change in the position of the suspension. This will happen due to an increase in cracks and deformation of the stabilizer bushings;
  • the next step will be the appearance of a large roll of the car when making turns with a small radius. The body will sway violently;
  • In some cars, play in the steering wheel may occur. This is due to their design features;
  • Further ignoring the situation will lead to the car's controllability deteriorating. The car may start to move from side to side when trying to make any maneuver.

Mitsubishi ASX Club

Since the internal size of the bushing was reduced from the outside, the bushing when put on the amplifier became larger, but the covers are tensioned without any problems. We tighten the cover bolts with our hands and tighten them a little. A little. Then we screw the eggs back on, put on the wheels and remove the car from the trestles (stands). Then we tighten the cover bolts and wheel nuts. New bushings on the car, left and right. View from above.

As you can see, when the covers were tightened, the new bushings opened up more than the original ones, apparently due to a change in size. The stops on the stabilizer seem to be rubber, so they should not knock even with broken bushings. I screwed up and forgot to take photos of the new bushings on the car, side view. A test drive showed that there seemed to be less knocking, but we couldn’t get strong knocking noises. However, I have nothing done to the front struts. I unscrewed the rack, looked at the mating plane - I couldn’t find any “filled” places on the metal. And I couldn’t find any places where it could knock. True, I didn’t unscrew the strut from the steering knuckle for fear that there might be a camber adjustment in this place. I put this question aside for later. I'll go with new bushings and listen

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