Reproducibility of Physico-Chemical Properties in Brakes Emissions Generated at Different Dynamometric Benches

Author:

Mancini Alessandro1,Tsyupa Bozhena1,Della Bella Pietro1,Russo Simone1,Martinelli Elia1,Leonardi Mara1,Belotti Stefano1,Hense Maximilian2,Niemann Hartmut2,Bertasi Federico1,Bonfanti Andrea1

Affiliation:

1. Brembo Spa

2. LINK Engineering Company GmbH

Abstract

<div class="section abstract"><div class="htmlview paragraph">In recent years, brakes emission tests have become increasingly standardized to meet progressively stricter <i>intra</i> and <i>inter</i> laboratory reproducibility requirements. In particular, following the recent EURO 7 regulation proposal, WLTP-Brake cycle has surged as EU standard braking sequence to determine emission factors of investigated brake systems. Furthermore, the UN GTR (United Nations Global Technical Regulation) on Laboratory Measurement of Brake Emissions for Light-Duty Vehicles collects all the information needed to perform emission tests in laboratory. This includes design specifications for the testing platforms as well as the typology and configuration of measuring instruments. Notably, laboratory emission tests are also increasingly used to collect particulates for chemical characterization, since the compositional information is crucial to: <i>i)</i> provide correct assessment of their toxicological and environmental behavior; and <i>ii)</i> better understand tribological and emission mechanisms. Therefore, this work specifically aims at investigating the topic of the <i>inter</i> laboratory reproducibility of physico-chemical properties in particulates generated by the same friction couple when collected during emission tests carried out on different testing platforms. In particular, the contribution focuses on the comparison of PM<sub>10</sub> emissions generated by three different friction couples (<i>i.e.</i>, ECE R90 Low Steel, NAO and Inorganic-bound friction materials coupled against grey cast iron brake discs) during sets of WLTP tests performed at two different facilities. More in detail, a wide physico-chemical characterization performed by Scanning Electron Microscopy (SEM), Energy Dispersive X-Ray Spectroscopy (EDXS) and X-Ray Diffraction (XRD) analysis is used to unveil the <i>inter</i> laboratory reproducibility of both the particle size distribution and the chemical composition of corresponding twin particulates collected at the two testing laboratories. The reported results will provide useful insights regarding the variability level to be currently expected in selected physico-chemical properties of non-exhaust emissions from brakes when collected in different testing facilities.</div></div>

Publisher

SAE International

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