Tractor Braking Systems

How to avoid potential brake compatibility issues


The federal government is in the middle of a three-year program to reduce the stopping distances of Class 8 tractors. The first part of its new stopping distance regulations covered three axle tractors up to 59,600 pounds gross vehicle weight ratings (GVWR) and was effective August 2011.

The program will be complete in August 2013 when all other tractors - with GVWRs over 59,600 pounds - are included in the National Highway Traffic Safety Association (NHTSA) regulations.

The goal of the NHTSA program is to make the stopping capability of trucks closer to that of a typical passenger car.

STEER AXLE

The primary change to the tractor’s brakes, as a result of this rulemaking, is on the steer axle.

During high deceleration stopping, a weight transfer occurs and adds significant load to the steer axle - an action is sometimes called “dive.” As a result, more torque can be added to the steer brakes.

These vehicles, therefore, have either larger, higher torque drum brakes on the steer axle, or higher torque air disc brakes.

These steer brake changes, and the fact that air disc brakes are now an option on all axles, is changing the landscape of both original equipment (OE) brake linings and aftermarket brake linings in North America. It is now even more important to carefully select OE brake options and aftermarket brake linings for your vehicle.

TWO BASICS

Two basic things are important to remember.

First, brake replacement linings must be selected to assure the friction level of the replacement lining produces equivalent brake torque to the OE linings. If a reduced friction lining is used, the stopping distance of the vehicle can be significantly increased, making the vehicle less safe, and even bringing on potential liability concerns for the fleet.

Second, the introduction of large volumes of air disc brakes to the North American market increases the potential for naturally occurring compatibility problems between disc and drum brakes, a problem that TMD Friction has been working to help resolve.

It is critical to understand that today’s aftermarket linings simply do not have to meet the OE legal standards in North America. Many aftermarket linings are of poor quality and poor braking performance.

It is also difficult to know whether or not you are purchasing the right friction material product. Many linings are sold as generic products and are branded by companies that know little about braking performance. Some linings even come from overseas plants in India and China with questionable quality.

Any fleet or vehicle maintenance operation with concerns over their vehicle’s brake performance must become knowledgeable about the source and performance of their brake products.

BRAKE LINING RATINGS

One voluntary system for rating aftermarket brake linings does exist, and is available, free of charge. It is the Technology and Maintenance Council’s Recommended Practice 628, Aftermarket Brake Lining Qualification.

This is a list of specific brake linings that have passed the original equipment Federal Motor Vehicle Safety Standards (FMVSS) 121 - Air Brake Systems’ dynamometer standard for typical vehicle parameters of gross axle weight rating, tire size, and brake size and type. If a lining is on this list, it has passed the dynamometer FMVSS 121 test.

Also listed in RP 628 is the torque output of the lining and other critical information such as fade index, quality rating of the manufacturing plant and a guarantee that the linings are asbestos-free.

A fleet or maintenance shop only needs to choose a lining with equivalent torque of the OE lining, and the stopping capability of their trucks will be assured.

DIFFERENT ANIMALS

Another important thing for fleets with air disc brakes on their vehicles to remember is that air disc brakes and air actuated drum brakes are basically different animals.

The disc brake is the newer product, and it has all the advantages of disc brakes on cars - consistent torque output, significantly reduced fade and potentially longer life. Two key differences, however, exist in the designs and friction materials of disc and drum brakes.

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