This work explores two approaches aimed at improving the sustainability of automotive brake systems: incorporating rice husk as renewable raw material and using benzoxazine resins as an alternative binder in brake pad friction material formulations. The automotive brake system generates wear and PM emission during operation, contributing significantly to the traffic-related pollution. The need for the brake industry to address these emissions has been further promoted by the EURO 7 legislation, prompting a shift towards more sustainable brake systems. Rice husk and benzoxazine resins were chosen considering some attractive properties related to the friction material application but also to an actual industrial implementation, such as their favourable storing requirements. Four different friction material compositions underwent tribological testing on a reduced-scale dynamometer, also monitoring the airborne emissions. The contact surfaces were characterized through SEM, EDXS and XRD an...
Novel ingredients for sustainable brake pad friction materials: Benzoxazine resins and rice husk / Carlevaris, Davide; Nogueira, Ana Paula Gomes; Rita, Domenico Antonio; Candeo, Stefano; Fambri, Luca; Menapace, Cinzia; Straffelini, Giovanni. - In: WEAR. - ISSN 0043-1648. - 564-565:(2025). [10.1016/j.wear.2024.205698]
Novel ingredients for sustainable brake pad friction materials: Benzoxazine resins and rice husk
Carlevaris, Davide;Nogueira, Ana Paula Gomes;Rita, Domenico Antonio;Candeo, Stefano;Fambri, Luca;Menapace, Cinzia;Straffelini, Giovanni
2025-01-01
Abstract
This work explores two approaches aimed at improving the sustainability of automotive brake systems: incorporating rice husk as renewable raw material and using benzoxazine resins as an alternative binder in brake pad friction material formulations. The automotive brake system generates wear and PM emission during operation, contributing significantly to the traffic-related pollution. The need for the brake industry to address these emissions has been further promoted by the EURO 7 legislation, prompting a shift towards more sustainable brake systems. Rice husk and benzoxazine resins were chosen considering some attractive properties related to the friction material application but also to an actual industrial implementation, such as their favourable storing requirements. Four different friction material compositions underwent tribological testing on a reduced-scale dynamometer, also monitoring the airborne emissions. The contact surfaces were characterized through SEM, EDXS and XRD an...I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione
