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Arthur T Knackerbracket has found the following story:
More than many other auto parts, brake discs are subject to repeated mechanical loads. As a result of this continual abrasion, they produce fine particulate matter, which pose a substantial environmental burden. Now, however, a new coating process developed by the Fraunhofer Institute for Laser Technology ILT and RWTH Aachen University can significantly reduce this impact. By using "Extreme High-speed Laser Material Deposition", known by its German acronym EHLA, it has proved possible to provide brake discs with an effective protection against wear and corrosion in a procedure that is both fast and economic.
Traditional coating processes such as electroplating or thermal spraying. The problem with such processes is that they do not produce a metallurgical bond between the cast iron and the protective coating; moreover, they are expensive and use a lot of materials.
Now, however, a new process avoids these drawbacks. Developed by Fraunhofer ILT in Aachen, together with the Chair for Digital Additive Production DAP at RWTH Aachen University, it is known as Extreme High-speed Laser Material Deposition (EHLA).
[...] Coatings produced with conventional processes have pores and cracks. With the EHLA process, the coating remains intact and therefore provides longer and more effective protection for the component. This increases service life and prevents early failure as a result of damage to the surface of the brake disc. Moreover, the process is suitable for a wide range of materials. Therefore, it is possible to select an environmentally friendly coating for each specific application.
The EHLA process is a new process variant on the well-known laser material deposition, which has proved highly successful in areas such as the repair of turbine blades. EHLA does, however, have a number of decisive advantages. With the EHLA process, the powder particles of the coating material are melted directly in the laser beam, rather than in a melt pool on the surface of the component. Since the melt pool now is fed by liquid drops of material rather than solid particles of powder, the coating process is much faster, rising from the 0.5–2 meters per minute with conventional laser material deposition to as much as 500 meters per minute.
This also substantially reduces the exposure to heat of the material being coated. Unlike conventional laser material deposition, where the heat affected zone can have a depth of one or more millimeters, thermal exposure with the EHLA process remains in the micrometer range. This enables the use of entirely new material combinations such as coatings for aluminum or—as with the brake discs—cast-iron alloys.
(Score: 2) by RS3 on Wednesday September 04 2019, @01:47AM (2 children)
Ugh. This is why I do all my own work.
Way back in the days of front drum brakes, during a state inspection I was aghast at watching a grease monkey pop my grease cap, pull the cotter pin, unscrew the nut, and pull the whole wheel and drum as an assembly, and not being careful with the outer bearing. I guarantee they knocked tons of crap onto the spindle before jamming the drum / wheel back on. Short drive home, completely clean and re-pack the wheel bearings. Sometimes the anuses would do both front wheels.
But you've given me an idea... thanks...
(Score: 0) by Anonymous Coward on Wednesday September 04 2019, @01:52AM (1 child)
And when they overtighten the castle nut and your bearings seize 1/2 mile away.
(Score: 2) by RS3 on Wednesday September 04 2019, @02:07AM
Yeah, it's worth checking that before driving away from the place.