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SUSPENSION AND BRAKES

MANY ACCIDENTS CAN BE TRACED BACK TO U-BOLTS

These vital suspension components are often ignored, until it's too late.

Like many people, we at OTA have had the broken U-bolt experience. Our trailer U-bolt incident didn’t result in an accident, just temporary axle misalignment, but other people have been less fortunate. 


For a start, U-bolts are not reusable components. Correctly designed and made U-bolts are cold-formed, with rolled threads and fitted with cut-thread nuts. This combination of thread and nut is designed to bind tightly when torqued, but slight deformation of the threads occurs during the torquing process.

This surface alteration means that if U-bolt nuts are slackened off and retightened they will not reproduce the originally-designed clamping force, even if a tension wrench indicates correct torque level.

Another complication with U-bolts is their vulnerability to corrosion and damage. All U-bolts suffer from surface corrosion, because of their position, close to the road in all weather and temperature conditions. Many 4WDs and trailers have U-bolts with nuts fitted below the axle, so the threads can be damaged on rocky trails.

Removing nuts over corroded or damaged threads distorts the nut and the U-bolt threads, making re-use a very risky operation.

Once U-bolts and nuts have been tightened they should be re-tensioned after the spring and the U-bolts have ‘settled’, but if there’s any sign of damage or cracking in U-bolts they should be discarded and replaced by new U-bolts and nuts. They’re not expensive!

If one U-bolt on an axle needs replacement, all four should be replaced, because a loss of clamping force on one side of the axle will have caused stress on the other side as well.

 

Corrosion and cracking issues

Many people ask why U-bolts aren’t made of corrosion-resistant materials, such as stainless steel, but exotic steel alloys and hardened steels are more prone to corrosion cracking and breakage than the milder steels used in most 4WD and trailer U-bolts.

Also, U-bolts that have been heat-treated, heat-bent, welded, electro-plated or galvanised can be more susceptible to embrittlement than untreated U-bolts, unless they're correctly manufactured. Unfortunately, there's no Australian Standard for U-bolt production and testing.

Our mates at Couplemate Trailer Parts in Brisbane report testing some imported, zinc-plated U-bolts that could be broken by hand!

U-bolts should be designed with sufficient strength to clamp a spring pack for a life of thousands of kilometres, but, like all suspension components, they’re not ever-lasting. Every time the spring flexes, the U-bolt's clamping force restrains the axle’s natural tendency to depart from the spring. The resulting fatigue and weakening caused by corrosion eventually take their toll.

When fitting a replacement U-bolt it’s essential that the profile of the U-bolt exactly matches the axle profile or the profile of the adaptor plate that it fits over. This is particularly important if a generic U-bolt is fitted, rather than an original-equipment bolt.

A square-profile U-bolt must match the axle shape precisely, with minimal gap between the bolt’s three contact faces and the axle tube. Curved-profile U-bolts must also have a radius that mates evenly on the axle tube or the adaptor bracket, with no air gap between. A U-bolt that contacts the axle or adaptor at only a couple of high points will almost certainly suffer from cracking failure.

Regular U-bolt checks - every time the vehicle is on a hoist for routine maintenance - should include inspection of U-bolt condition and tightness. Loose U-bolts rapidly lead to failure of one or more bolts and spring cracking. Total suspension failure and an accident are then a certainty.

When it comes to U-bolts: if in doubt, chuck ‘em out!

 


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