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Mon, Jan 23, 2017

De-Icing Training And Awareness Can Prolong The Life Of Aircraft Brakes

Millions In Savings Could Be Realized By The Airline Industry

Improved de-icing training and awareness of the impact of de-ice fluid could help prolong the life of aircraft brakes and save the airline industry millions, says industry specialist Phil Randell, Managing Director of World Aero.

World Aero sees many brakes come through its EASA/FAA Part-145 certified repair station each year destroyed by de-icing fluid damage. The damage mainly caused by de-icing fluid is from the alkali-metal-salt fluid applied by airports to the runways, which can get transferred on to the wheels (and therefore brakes) when the aircraft is taxiing, taking off and landing. Unfortunately no practical measures can be taken to avoid this damage caused by runway fluids, but if aircraft de-icing application methods are carried out correctly, then the damage can be minimised as far as possible. The contamination of aircraft carbon brakes by modern types of de-icing fluid can lead to oxidation of the brake discs, causing serious damage to the wear components.  Discovery of an oxidized brake, seen by line maintenance technicians during routine wheel changes, mean the brake must then be removed from the aircraft altogether, with premature removal having costly implications for the operator, as well as an AOG risk. World Aero has seen a number of brakes where high remaining wear is left on the heat sink, but the oxidation is severe and the only option is to replace the carbon heat sink (see image above). It is of course a particular issue in countries affected by extreme, prolonged cold weather where the use of de-icing fluid is more prevalent.
The vital process of de-icing ensures that aircraft are free of ice, snow or frost before take-off. The one or two-step procedure involves the application of one or two types of fluid to the aircraft surfaces by hose from a de-icing vehicle. It is a time-sensitive task, with operatives regularly feeling under pressure to get the job completed quickly so that the aircraft can get back in the air as soon as possible after application. In addition to this, communication can be difficult, with operatives wearing ear defenders and often carrying out the task in the early hours of the morning. Furthermore, particular fluids must be reapplied if a certain time has lapsed before the pilot has taken off, meaning if there is a long queue for take-off the process must be repeated, increasing the exposure of wheels and brakes to the harmful fluid.
Having previously worked at London City Airport as a Line Maintenance Engineer certifying aircraft as ready for flight after de-icing, Phil Randell knows first-hand the difficulty of the process and the temptation to over-apply aircraft with fluid in order to ensure that de-icing is effective: “The process involves covering the aircraft with de-icing fluid in order to minimise the risk of missed areas, meaning that wheels and brakes are often sprayed directly rather than avoided as they should be.”

"The issue is particularly prevalent in Boeing 747-400 carbon brakes and World Aero has seen a large number of these prematurely removed from the aircraft and later scrapped due to oxidation," Randell said. "This costs the airlines a considerable amount with the replacement heat sink exchange ranging from $30,000 to $50,000 depending on the agreement in place with the OEM, as well as the cost of the premature removal and workshop costs. This often makes the difference between repairable and non-repairable on the older generation aircraft due to the current market value of the brake. In addition to this, OEMs must scrap the removed heat sink due to oxidation, causing there to be no acceptable core heat sink, further adding to the replacement cost.
“The issue can also be more prevalent in aircraft fitted with brake fans, including BAe146 and A320, due to de-icing fluid being sprayed and drawn into and across the brakes during turnaround. Fortunately newer aircraft avoid complications as a more advanced type of carbon is used in the brakes, which can better withstand the destructive effects of de-icing fluid,” Phil goes on. “767-300 aircraft used to be badly affected however Honeywell released a new carbon heat sink with improved carbon elements. Of the 50-60 Messier-Bugatti-Dowty brakes we see annually, only a very small number of brakes have been removed prematurely due to oxidation.”
Simple improvements to de-icing training could create awareness of correct work practices and highlight the costly implications of the procedure being carried out incorrectly, Phil Randell advises. “De-icing training often concentrates on the importance on covering the aircraft with de-icing fluid in order to ensure effectiveness,” says Phil, “but when de-icing by hand, training could be improved to give further awareness to the airport operatives carrying out the procedure to highlight protecting the more sensitive parts of the aircraft, such as the pitot heads, equipment cooling inlets, and engine inlets, as well as of course the wheels and brakes.”
As most aircraft wheels and brakes are under the body or wing, they have a level of protection, so if not sprayed directly, damage can be avoided, with a minimal amount of drip down to the wheels to be expected. Checking for damaged brakes is done when removing the wheels for tyre change, when a check on the brakes can be performed to observe for crumbling of the carbon components, especially of the pressure plate located closest to the pistons, which indicates oxidisation of the heat sink.
“With improved de-ice training and awareness of the effects of de-ice fluid on brakes,” Phil concludes, “operators would be able to save significant sums over the lifecycle of an aircraft by having fewer, faster and more cost effective repairs, ensuring a longer life for brakes and avoiding expensive replacement parts.”

(Images provided with World Aero news release)



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