Brake Inspections Tech Tip - Midwest Wheel
08Brake Inspections Tech Tip130007032019
08Brake Inspections Tech Tip130007032019 TECH Tips CATALOG NUMBER 08 www.midwestwheel.com Order NLINE ⢠www.midwestwheel.com Order NLINE ⢠Bad brakes: Why regular brake inspections are vital to reducing downtime, roadside violations www.truckpartsandservice.com By Tom Quimby Read any good drums lately? Brake drums help tell the critical story of overall brake performance, which is important since an overwhelming portion of violations â 45 percent during last yearâs Commercial Vehicle Safety Alliance (CVSA) Inspection Blitz â were owed to bad brakes. In the age of âhurry up and get it doneâ simply replacing a brake drum and shoes is not an effective way to maximize brake life, safety and productivity. Nor is it the best way to avoid costly violations and irate drivers. âThis is the second time theyâve done this to me,â said a driver recently to a Florida Highway Patrol trooper who grounded his truck for bad brakes. The âtheyâ in this case would be the fleet that failed to ensure that the driverâs trailer had sound brakes before hitting the road. But the driver also shares responsibility since the trailer should pass his own inspection prior to hauling. The grounded truck and its driver sat and waited at an inspection station along Interstate 10 for a tech to show up to fix the brakes. Both were still there when the trooperâs shift ended, and with a load that was going nowhere fast. Avoiding violations not only comes from keeping brakes in adjustment it also comes from taking a close look at brake drums, which can reveal how the overall system is performing. Tossing out a drum without closely inspecting it for wear patterns and damage may mean missing vital clues that can point to issues with hardware, shoes and the smallest of road hazards like dirt and sand. âAny irregular wear patterns should be investigated, such as tapered wear across the braking surface or significant grooving beyond the specific drumâs maximum wear diameter,â says Johnathon Capps, vice-president of engineering, Webb Wheel Products. âCauses for this include worn braking hardware (such as the rollers and bushings), dirt and debris infiltration across the braking surface, and inadequate friction material.â Accurideâs director of wheel end product engineering, Greg Sturdy, says on average fleets are not conducting enough brake drum inspections. For guidance, Sturdy points to the following recommended practices from the American Trucking Associationsâ Technology & Maintenance Council (TMC): TMC RP608 on Brake Drums and Rotors; RP627 Brake Lining Structural Defects; and RP 629 Brake Lining Contamination. âEven wear is critical,â Sturdy says. âIf there is any sign of uneven wear or heat discoloration this indicates the system is not running true to the axis of rotation and causing runout. Such runout will cause the brake components to unevenly heat and cool and cause accelerated wear along with crack formation potential.â Made with FlippingBook RkJQdWJsaXNoZXIy MTEyNjY3NA== 08Brake Inspections Tech Tip130007032019 Sturdy adds that grooving can also be caused by aggressive linings, improper brake setup and improper burnishing. Since brakes are only as good as their hardware be sure to take a close look when the drum is removed. âLook for damage to components, cracks loose or missing fasteners, corrosion, etc.,â Capps says. âRefer to the manufacturerâs maintenance manuals for specific dimensional inspection points. Also refer to the manual to determine where to lubricate and where not to lubricate.â Excessive lubrication can make its way to the drumâs braking surface and shoes, get in the way of effective braking and lead to premature wear, adds Kevin Pfost, coordinator of technical services, Bendix Spicer Foundation Brake (BSFB). Pfost says that while grooving can be caused by foreign material like sand and dirt entering the drum it also may be the result of excessively hard brake shoes. Picking high-quality shoes to match the duty cycle can help avoid trouble down the road. âIf the drum is wearing faster than expected, then there may be a friction couple incompatibility or that particular wheel end is doing more work than other wheel ends,â says Joseph Kay director of brake engineering, Meritor. Wear patterns like grooving, however, arenât always indicative of a problem. âA groove on the outer edge of the drum is quite common as the drum is typically slightly larger in width than the shoe,â says Mike Hasinec, vice president of maintenance, Penske Truck Leasing. âDeep grooves throughout the drum surface typically indicate the brake lining has worn down to the rivets. Pitting can be an indication of debris getting in the drum â backing plates help prevent that. Some very small cracks inside the drum surface are normal. In rare cases, you may see the drum worn more towards the outside versus the inside. An alignment problem or even a bent or twisted brake spider can cause this.â The heat is on Since it takes plenty of friction to slow down an 80,000-lb. truck itâs not hard imagining how hot brakes can get and the impact that heat can have on drums. Gray iron is the standard material used in brake drum manufacturing. However, according to Kay, variance in composition can affect thermal characteristics of the drum. The lower the thermal properties, the higher the thermal stress to the drum. Costly elements like molybdenum combined with gray iron can help increase strength but the heat will always be present along with its effects which, if left unchecked, can result in drum failure. âThe main function of a brake drum or rotor is to convert energy to achieve a vehicle deceleration,â Kay says. âThe drum does this by converting the rubbing friction into thermal energy (heat) and then release the thermal energy to the atmosphere. The drum must have excellent material properties to manage the energy quickly and efficiently. âFor example, an emergency stop with a fully-loaded commercial truck from 60 mph will happen under six seconds, therefore if the energy cannot convert quickly the result will be a longer stopping distance.â Obviously, no one wants a longer stopping distance, which is a vital reminder of the importance of choosing the right brake components and conducting routine and thorough inspections that include looking for signs of overheating. âThe drum has to handle a lot of variation in temperature,â Hasinec says. âDuring braking the drum experiences expansion and contraction, which causes many of the smaller cracks you see on the inner drum surface. These smaller cracks are generated from the heat of the braking event and are normal. A lot of heat and a panic stop usually causes larger cracks that can actually be seen from the outer edge of the drum. This is a drum that you discard, as it is usually cracked all the way to the outer shell.â According to Pfost other factors also can lead to abnormal heat in the drum, such as a dragging brake and a duty cycle thatâs too severe for the drum. Capps agrees. Heat cracks and drum discoloration are both signs of brake drum overheating. Made with FlippingBook RkJQdWJsaXNoZXIy MTEyNjY3NA== 08Brake Inspections Tech Tip130007032019 âWhile cracks across the braking surface can be caused from improper installation, it is typically due to a thermal or mechanical overloading of the braking surface,â he says. âThis can be due to various factors including: improper installation; inferior friction material; dragging brake, inadequate drum for the specific application; or parking brakes set while drum is overheated.â While mostly normal, there are times, according to Kay, when those small heat cracks may be signaling a problem. âWith heat checks itâs okay to continue using the drum as they sometimes wear off over time or they do not grow,â Kay says. âIt is important to note that heat checks would be expected to cover the drum 360 degrees and over the width of the shoe contact. This symptom indicates the shoe is in full contact when the brake is applied. âIf the drum shows localized heat checking, for example in a certain section of the drum, then there may be a dimensional problem that is forcing contact in only one location,â he continues. âSometimes the thermal stress will continue fatiguing the drum and larger cracks will develop. Once a larger crack forms then the drum must be replaced.â Beyond heat cracks look for drum discoloration as a sign of overheating. âIf the brake surface has a blue color to it, this is typically a symptom of overheating,â Kay says. âDragging brakes or simply over-using a brake can lead to excessive temperatures and as a result the drum turns blue from the oxidation.â Drum discoloration from heat damage may also result from martensite formation which leads to leopard spotting, Sturdy adds. Beating the drum about best practices Since itâs typically more time- and cost-effective to replace old drums with new ones, most shops have largely abandoned the process of turning drums. Penske, however, never took up the practice. âWe have never turned drums and donât see this as cost effective,â Hasinec says. âTurning drums creates additional down time for the vehicle. Turning drums has become somewhat rare and even finding a supplier that can do so can be a challenge. I believe most fleets have this same train of thought.â Pfost agrees. âThe down time required to send a drum to be turned can be costly,â he says. âAnd if a drum is turned too far, it may still be in spec but by the time you wear out a new pair of shoes, it will no longer be in spec.â Sturdy says that the challenging aspects of drum turning have more shops opting for new drums over turning. âWith the skills required to properly setup and align a brake drum on the pilot and mounting flange we are finding more shops are opting for replacement vs. turning,â he says. âSome sites that have consistent and proper maintenance programs we find them utilizing drums without having them turned, merely going from first lining to the second.â For those times when turning makes sense be sure to take the time to determine if the drum is a sound candidate. âMost manufacturers do not recommend resurfacing or turning a brake drum,â Capps says. âHowever, if turning is necessary, allow for at least .040 inches under the maximum diameter cast into the brake drum. For example, if the maximum diameter cast into the drum is 16.620 in., the maximum rebore limit should be 16.580 in.â When considering a drum for turning, be sure to select proper measurement points. âThis should be measured at the worst location (any grooves or out of round for instance) to make sure sufficient material is there to remove,â Sturdy says. âCheck the diameter of the braking surface at two points 90 degrees apart at the inner brake surface area and two on the outer brake surface to check for any roundness or taper issues. Checking in these four locations will help verify the drum diameter as well as any shape issues in the braking zone.â Brakes are only as good as their hardware, which means all related components also should be regularly inspected along with brake drums. Made with FlippingBook RkJQdWJsaXNoZXIy MTEyNjY3NA==