Marc Rettig scite author profile

Marc Rettig

4Publications

108Citation Statements Received

58Citation Statements Given

How they've been cited

179

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Affiliations

Ford (Germany)

Publications

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Study of Brake Wear Particle Emissions: Impact of Braking and Cruising Conditions

Hagen

Mathissen

Grabiec

et al. 2019

Environ. Sci. Technol.

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A novel measurement setup is designed, constructed, and validated by theoretical simulations and by experiments enabling sensitive and loss-free brake particle emission investigations. With the goal to simulate realistic driving, a 3 h subsection of the Los Angeles City Traffic (LACT) cycle is selected as test cycle. The tests are performed with the front brake of a midsize passenger vehicle under both static laboratory and more dynamic realistic conditions that include parasitic drag and vehicle brake temperatures (advanced vehicle simulations). A PM 10 emission factor of around 4.6 mg km −1 brake −1 is determined. During five cycle runs the emission factor in terms of particle number decreases by 1 order of magnitude. This decrease is accompanied by a shift of the critical brake temperature T crit , at which ultrafine particle emissions occur, from 140 to 170 °C. Investigations with advanced vehicle simulations generate brake temperatures below T crit and consequently do not show ultrafine particle emissions above background level. A particle number emission factor of approximately 4.9 × 10 10 km −1 brake −1 is estimated for realistic vehicle brake temperatures. Particle formation during cruising is clearly identified. The brake drag is estimated to contribute about 34% to the total airborne particle mass emission.

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On-road vehicle measurements of brake wear particle emissions

Hagen

Mathissen

Grabiec

et al. 2019

Atmospheric Environment

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Carbidic Brake Rotor Surface Coating Applied by High-performance-laser Cladding

Rettig

Grochowicz

Käsgen

et al. 2020

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Hypereutectic Aluminium Brake Rotor

Rettig

Grochowicz

Käsgen

et al. 2020

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Marc Rettig

Study of Brake Wear Particle Emissions: Impact of Braking and Cruising Conditions

On-road vehicle measurements of brake wear particle emissions

Carbidic Brake Rotor Surface Coating Applied by High-performance-laser Cladding

Hypereutectic Aluminium Brake Rotor

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