Airborne particulate emissions originating from the wear of pads and rotors of disc brakes contribute up to 50% of the total road emissions in Europe. The wear process that takes place on a mesoscopic length scale in the contact interfaces between the pads and rotors can be explained by the creation and destruction of contact plateaus. Due to this complex contact situation, it is hard to predict how changes in the wear and material parameters of the pad friction material will affect the friction and wear emissions. This paper reports on an investigation of the effect of different parameters of the pad friction material on the coefficient of friction and wear emissions. A full factorial design is developed using a simplified version of a pre...
The principle energy exchange of a brake system occurs in the tribological boundary layer between th...
International audienceParticles from brake, road and tire wear contribute to about half of the emiss...
International audienceParticles from brake, road and tire wear contribute to about half of the emiss...
Airborne particulate emissions originating from the wear of pads and rotors of disc brakes contribut...
Airborne particulate emissions originating from the wear of pads and rotors of disc brakes contribut...
Airborne particle emissions from road vehicles are one of the main issues affecting urban air qualit...
Besides friction and wear, airborne particle emission has become a central parameter when evaluating...
Besides friction and wear, airborne particle emission has become a central parameter when evaluating...
Abstract: In spite of remarkable efforts the perfect brake pad in terms of friction performance, wea...
Non-exhaust wear emissions from disc brakes affect the air quality in cities throughout the world. T...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The principle energy exchange of a brake system occurs in the tribological boundary layer between th...
The principle energy exchange of a brake system occurs in the tribological boundary layer between th...
International audienceParticles from brake, road and tire wear contribute to about half of the emiss...
International audienceParticles from brake, road and tire wear contribute to about half of the emiss...
Airborne particulate emissions originating from the wear of pads and rotors of disc brakes contribut...
Airborne particulate emissions originating from the wear of pads and rotors of disc brakes contribut...
Airborne particle emissions from road vehicles are one of the main issues affecting urban air qualit...
Besides friction and wear, airborne particle emission has become a central parameter when evaluating...
Besides friction and wear, airborne particle emission has become a central parameter when evaluating...
Abstract: In spite of remarkable efforts the perfect brake pad in terms of friction performance, wea...
Non-exhaust wear emissions from disc brakes affect the air quality in cities throughout the world. T...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The friction, wear and particle emission from an AlSiC MMC brake disc/non-asbestos organic brake pad...
The principle energy exchange of a brake system occurs in the tribological boundary layer between th...
The principle energy exchange of a brake system occurs in the tribological boundary layer between th...
International audienceParticles from brake, road and tire wear contribute to about half of the emiss...
International audienceParticles from brake, road and tire wear contribute to about half of the emiss...