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The SAE Brake Linings Committee launched an evaluation of the current SAE standard J840 “Test Procedures for Brake Shoe and Lining Bonds,” specifically the bond plane shear test. The aim of the study was to identify what settings in the shear test lead to the most repeatable results for a variety of linings. An initial four factor two-level design of experiments (DOE) was conducted, with 15 pads sheared for each condition. The DOE looked at pad material type (NAO and semi-metallic), backing plate attachment type (integrally molded and mechanical retention system), ram offset position (1.0 mm and 4.0 mm) and normal pressure (0 and 0.5 N/mm2). The test measured shear force and percentage material retention for each pad tested. The objective of the DOE was to guide revision of the SAE J840 shear test procedure. For example, the application of a normal force raises the nominal value of the shear force by 30-50%, and reduces the variability of the test results.

In order to assess the amount of airborne particulate matter (PM) attributable to vehicle disk brakes, a system was devised for collecting brake wear debris on a laboratory brake dynamometer. The brake dynamometer test hardware was enclosed and vented through a duct in which the airflow was controlled to ensure isokinetic sampling. Two brake dynamometer simulations were implemented: urban driving (low velocity, low g) and the Auto Motor und Sport (AMS, high velocity, high g). These test procedures were performed repeatedly on the brake system hardware of vehicles utilizing three different friction material types: low-metallic, semi-metallic, and non-asbestos organic (NAO). Airborne brake wear was collected on filters and via other airborne PM sampling techniques. Larger, non-airborne wear debris was collected from the wheel, below the brake, and brushed off the hardware. Considering the effect of the wheel, 50-70% of the collected wear debris was airborne PM.